2018

2018

Record 1 of 170

Title: Photoelectron backscattering in the microchannel plate photomultiplier tube

Author(s): Chen, P (Chen, Ping); Tian, JS (Tian, Jinshou); Guo, LH (Guo, Lehui); Wei, YL (Wei, Yonglin); Liu, HL (Liu, Hulin); Sai, XF (Sai, Xiaofeng); Wang, X (Wang, Xing); Lu, Y (Lu, Yu); Wang, C (Wang, Chao); Wang, JF (Wang, Junfeng); He, K (He, Kai); Tian, LP (Tian, Liping); Xin, LW (Xin, Liwei); Guo, HT (Guo, Haitao)

Source: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT  Volume: 912  Special Issue: SI  Pages: 112-114  DOI: 10.1016/j.nima.2017.10.081  Published: DEC 21 2018  

Abstract: The late pulse occurring in photomultiplier tubes (PMTS) is attributed to photoelectron backscattering. The small effective open area of microchannel plates (MCPs) increases the probability of photoelectrons bouncing on the front surface of MCPs and aggravates late pulses. In this work, a three-dimensional MCP-PMT model is developed in CST particle studio, a powerful electromagnetic field simulation program, to evaluate the effects of secondary emission yield (SEY) property of the MCP input facet and electric field on the photoelectron backscattering. Timing properties and the number of collected electrons are extracted without smearing due to electronic noise and finite pulse width. Results predict that the collection efficiency (CE) and the time performance can be improved by coating the MCP Nickel-Chromium input electrode with a high SEY material and operating in a proper photocathode-MCP bias voltage. (C) 2017 Elsevier B.V. All rights reserved.

Accession Number: WOS:000453717200030

Conference Title: 8th International Conference on New Developments in Photodetection (NDIP)

Conference Date: JUL, 2017

Conference Location: Tours, FRANCE

Conference Sponsors: CEA, DRF, Inst Res Fundamental Laws Universe, CEA Tech LIST, CNRS, Inst Natl Physique Nucl Physique Particules, Univ Paris Diderot, Lab AstroParticule Cosmologie, CNRS, Ecole Polytechnique, Lab Physique Interfaces Couches Minces

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Tian, li 

HQY-8623-2023 

 

liu, shanshan 

JPA-0852-2023 

 

Wang, Chao 

HKW-3832-2023 

 

WANG, CHAO 

 

0000-0002-2473-2973 

 

ISSN: 0168-9002

eISSN: 1872-9576

 


 

Record 2 of 170

Title: Broadband RF Channelizer Based on an Integrated Optical Frequency Kerr Comb Source

Author(s): Xu, XY (Xu, Xingyuan); Wu, JY (Wu, Jiayang); Nguyen, TG (Nguyen, Thach G.); Chu, ST (Chu, Sai Tak); Little, BE (Little, Brent E.); Morandotti, R (Morandotti, Roberto); Mitchell, A (Mitchell, Arnan); Moss, DJ (Moss, David J.)

Source: JOURNAL OF LIGHTWAVE TECHNOLOGY  Volume: 36  Issue: 19  Special Issue: SI  Pages: 4519-4526  DOI: 10.1109/JLT.2018.2819172  Published: OCT 1 2018  

Abstract: We report a broadband RF channelizer based on an integrated optical frequency Kerr micro-comb source, with an RF channelizing bandwidth of 90 GHz, a high RF spectral slice resolution of 1.04 GHz, and experimentally verify the RF performance up to 19 GHz. This approach of realizing RF channelizers offers reduced complexity, size, and potential cost for a wide range of applications to microwave signal detection.

Accession Number: WOS:000443892500039

Conference Title: International Topical Meeting on Microwave Photonics (MWP)

Conference Date: OCT 23-26, 2017

Conference Location: Tsinghua Univ, Beijing, PEOPLES R CHINA

Conference Sponsors: Beijing Univ Posts & Telecommunicat, CAS, Inst Semiconductors, NUAA, SWJTU, IPOC, LUSTER LightTech Grp, YOFC, IEEE Photon Soc, IEEE Microwave Theory & Tech Soc, TNList, Chinese Laser Press, EiC, Tektronix, Conquer, REALPHotoN, Miracle Photon, COMTEST

Conference Host: Tsinghua Univ

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Mitchell, Arnan 

C-5017-2008 

0000-0002-2463-2956 

Morandotti, Roberto 

AAU-4702-2020 

 

Morandotti, Roberto 

U-6712-2019 

0000-0001-7717-1519 

Xu, Xingyuan 

AAL-3295-2021 

 

Xu, Xingyuan 

JMQ-9851-2023 

 

Chu, Sai T 

D-3312-2014 

0000-0001-8263-8507 

Wu, Jiayang 

Q-8590-2019 

0000-0003-1115-610X 

Xu, Xingyuan 

 

0000-0002-8190-4700 

Nguyen, Thach 

 

0000-0002-8409-5638 

 

ISSN: 0733-8724

eISSN: 1558-2213

 


 

Record 3 of 170

Title: Suppression of the critical collapse for one-dimensional solitons by saturable quintic nonlinear lattices

Author(s): Shi, JC (Shi, Jincheng); Zeng, JH (Zeng, Jianhua); Malomed, BA (Malomed, Boris A.)

Source: CHAOS  Volume: 28  Issue: 7  Article Number: 075501  DOI: 10.1063/1.5015933  Published: JUL 2018  

Abstract: The stabilization of one-dimensional solitons by a nonlinear lattice against the critical collapse in the focusing quintic medium is a challenging issue. We demonstrate that this purpose can be achieved by combining a nonlinear lattice and saturation of the quintic nonlinearity. The system supports three species of solitons, namely, fundamental (even-parity) ones and dipole (odd-parity) modes of onand off-site-centered types. Very narrow fundamental solitons are found in an approximate analytical form, and systematic results for very broad unstable and moderately broad partly stable solitons, including their existence and stability areas, are produced by means of numerical methods. Stability regions of the solitons are identified by means of systematic simulations. The stability of all the soliton species obeys the Vakhitov-Kolokolov criterion. Published by AIP Publishing.

Accession Number: WOS:000440606100031

PubMed ID: 30070511

Conference Title: 19th MEDYFINOL Conference

Conference Date: DEC 05-09, 2016

Conference Location: Valdivia, CHILE

Conference Sponsors: MEDYFINOL

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

, 健华 

AAL-5533-2021 

0000-0003-0189-1856 

Shi, Jincheng 

 

0000-0001-6928-1064 

 

ISSN: 1054-1500

eISSN: 1089-7682

 


 

Record 4 of 170

Title: Learning to Predict Eye Fixations via Multiresolution Convolutional Neural Networks

Author(s): Liu, NA (Liu, Nian); Han, JW (Han, Junwei); Liu, TM (Liu, Tianming); Li, XL (Li, Xuelong)

Source: IEEE TRANSACTIONS ON NEURAL NETWORKS AND LEARNING SYSTEMS  Volume: 29  Issue: 2  Pages: 392-404  DOI: 10.1109/TNNLS.2016.2628878  Published: FEB 2018  

Abstract: Eye movements in the case of freely viewing natural scenes are believed to be guided by local contrast, global contrast, and top-down visual factors. Although a lot of previous works have explored these three saliency cues for several years, there still exists much room for improvement on how to model them and integrate them effectively. This paper proposes a novel computation model to predict eye fixations, which adopts a multiresolution convolutional neural network (Mr-CNN) to infer these three types of saliency cues from raw image data simultaneously. The proposed Mr-CNN is trained directly from fixation and nonfixation pixels with multiresolution input image regions with different contexts. It utilizes image pixels as inputs and eye fixation points as labels. Then, both the local and global contrasts are learned by fusing information in multiple contexts. Meanwhile, various top-down factors are learned in higher layers. Finally, optimal combination of top-down factors and bottom-up contrasts can be learned to predict eye fixations. The proposed approach significantly outperforms the state-of-the-art methods on several publically available benchmark databases, demonstrating the superiority of Mr-CNN. We also apply our method to the RGB-D image saliency detection problem. Through learning saliency cues induced by depth and RGB information on pixel level jointly and their interactions, our model achieves better performance on predicting eye fixations in RGB-D images.

Accession Number: WOS:000422952400013

PubMed ID: 27913362

Conference Title: IEEE Conference on Computer Vision and Pattern Recognition (CVPR)

Conference Date: JUN 07-12, 2015

Conference Location: Boston, MA

Conference Sponsors: IEEE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Xuelong 

ABF-3381-2020 

 

Liu, Tianming 

AAA-4602-2022 

 

Li, Xuelong 

Z-3785-2019 

 

li, xiang 

GWM-6319-2022 

 

Li, Xuelong 

 

0000-0002-0019-4197 

Liu, Nian 

 

0000-0002-0825-6081 

 

ISSN: 2162-237X

eISSN: 2162-2388

 


 

Record 5 of 170

Title: Dynamics of laser with an integrated nonlinear waveguide

Author(s): Aadhi, A (Aadhi, A.); Kovalev, AV (Kovalev, Anton V.); Kues, M (Kues, Michael); Roztocki, P (Roztocki, Piotr); Reimer, C (Reimer, Christian); Zhang, Y (Zhang, Young); Wang, T (Wang, Tao); Little, BE (Little, Brent E.); Chu, ST (Chu, Sai T.); Moss, DJ (Moss, David J.); Wang, ZM (Wang, Zhiming); Viktorov, EA (Viktorov, Evgeny A.); Morandotti, R (Morandotti, Roberto)

Book Group Author(s): IEEE

Source: 2018 CONFERENCE ON LASERS AND ELECTRO-OPTICS (CLEO)  Book Series: Conference on Lasers and Electro-Optics  Published: 2018  

Abstract: Exploiting a single figure-eight laser configuration that uses a highly nonlinear on-chip spiral waveguide, we experimentally demonstrate several mode-locking dynamics. We adjust the mode-locking pulse profiles in a controlled manner by varying the polarization.

Accession Number: WOS:000526031000446

Conference Title: Conference on Lasers and Electro-Optics (CLEO)

Conference Date: MAY 13-18, 2018

Conference Location: San Jose, CA

Conference Sponsors: IEEE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Kues, Michael 

HPE-7088-2023 

0000-0001-5323-3850 

Kovalev, Anton 

F-1897-2014 

0000-0001-7848-8526 

A, A 

JXO-5164-2024 

 

Aadhi, A 

JTD-3050-2023 

0000-0001-6609-1855 

Morandotti, Roberto 

AAU-4702-2020 

 

Chu, Sai T 

D-3312-2014 

0000-0001-8263-8507 

 

ISSN: 2160-9020

ISBN: 978-1-9435-8042-2

 


 

Record 6 of 170

Title: Low Frequency Ultrasound Transcranial Imaging with Coherent Compounding of Diverging Chirp Waves

Author(s): Bai, C (Bai, Chen); Ji, ML (Ji, Meiling); Qiao, XY (Qiao, Xiaoyang); Sang, YC (Sang, Yuchao); Xu, SS (Xu, Shanshan); Wan, MX (Wan, Mingxi)

Book Group Author(s): IEEE

Source: 2018 IEEE INTERNATIONAL ULTRASONICS SYMPOSIUM (IUS)  Book Series: IEEE International Ultrasonics Symposium  Published: 2018  

Abstract: For transcranial imaging based on contrast microbubbles, the acoustic window is limited to the temporal bone with strong attenuation. Consequently, the images obtained with conventional compounded plane waves (CPW) transmission is often not good in contrast-to-noise ratio (CNR). This is partly attribute to that short pulse commonly has low ability to penetrate the temporal bone. And moreover, CPW will raise a shadow area in the relatively deep field where beams are not overlapped. Although this can be improved by increasing the numbers of transmitting angles, it will reduce the frame rate. Therefore, to realize improvement both in detective sensitivity of microbubbles and CNR in transcranial imaging, the compounding of diverging chirp waves (CDCW), which combined the low frequency signals and chirp excitation with compounded diverging waves imaging, was investigated in this study. After confirming that the deflection angle of 30 and the angle interval of 2 should provide satisfactory imaging result, a phantom experiment with the 3-D printed skull and blood vessel model was performed and compared with CPW method. The results proved that CDCW can improve 2.95 dB of CNR with larger perspective, which can be an effective method for the future study of transcranial ultrasound imaging.

Accession Number: WOS:000458693001098

Conference Title: IEEE International Ultrasonics Symposium (IUS)

Conference Date: OCT 22-25, 2018

Conference Location: Kobe, JAPAN

Conference Sponsors: IEEE

ISSN: 1948-5719

ISBN: 978-1-5386-3425-7

 


 

Record 7 of 170

Title: Ultrasound Transcranial Imaging based on Fast Coherent-time-delay and Correlative Pixel-based Beamforming

Author(s): Bai, C (Bai, Chen); Zhang, XY (Zhang, Xinyu); Qiao, XY (Qiao, Xiaoyang); Sang, YC (Sang, Yuchao); Zhong, H (Zhong, Hui); Wan, MX (Wan, Mingxi)

Book Group Author(s): IEEE

Source: 2018 IEEE INTERNATIONAL ULTRASONICS SYMPOSIUM (IUS)  Book Series: IEEE International Ultrasonics Symposium  Published: 2018  

Abstract: Adaptive beamforming, such as the fast minimum variance (FMV) algorithm, has been developed to improve the contrast-to-noise ratio (CNR) in plane wave imaging with extremely reduced computation. However, in ultrasound transcranial imaging, FMV will be confronted with challenges raised by echoes with low intensities, especially when calculating the beamformer contributions at points which are in a distance from the beam center line. In order to improve the CNR and resolution in low echo beamforming during transcranial imaging, this paper proposed an adaptive beamforming which combined with fast minimum variance (FMV) algorithm and unified pixel-based beamforming, i.e. fast coherent-time-delay and correlative pixel-based (FCCP) beamforming. By considering the influence of neighboring pixels during the beamforming, this method can remove undesirable information instead of increasing diagnostic information in transcranial imaging. The influence of neighboring pixels was reflected by coherent-time-delay and coherent coefficients of each covariance matrix. After the simulation and phantom study, the results prove that CNR and the resolution are indeed ameliorated be FCCP, compared with delay-and-sum (DAS) and conventional minimum variance (MV) algorithm. In simulation, the CNR was augmented by 6 dB as well as the lateral resolution was improved by from 0.1536 mm from 0.1740 mm. FCCP is the combination of compound coherent-time-delay and correlative pixel-based, which could improves the resolution and contrast if image, and FMV. FMV is involved for the high complexity caused by matrix inversion, the computation was simplified by principal component analysis (PCA) when calculate the covariance matrix.

Accession Number: WOS:000458693000236

Conference Title: IEEE International Ultrasonics Symposium (IUS)

Conference Date: OCT 22-25, 2018

Conference Location: Kobe, JAPAN

Conference Sponsors: IEEE

ISSN: 1948-5719

ISBN: 978-1-5386-3425-7

 


 

Record 8 of 170

Title: Data-Driven Fuzzy Controller Design for Hypersonic Vehicle

Author(s): Bai, JM (Bai, Jian-Ming); Zhao, GS (Zhao, Guang-She); Rong, HJ (Rong, Hai-Jun)

Book Group Author(s): IEEE

Source: IEEE 20TH INTERNATIONAL CONFERENCE ON HIGH PERFORMANCE COMPUTING AND COMMUNICATIONS / IEEE 16TH INTERNATIONAL CONFERENCE ON SMART CITY / IEEE 4TH INTERNATIONAL CONFERENCE ON DATA SCIENCE AND SYSTEMS (HPCC/SMARTCITY/DSS)  Pages: 1698-1703  DOI: 10.1109/HPCC/SmartCity/DSS.2018.00275  Published: 2018  

Abstract: This paper presents a data driven fuzzy controller for a generic hypersonic vehicle. The fuzzy systems with any bounded nonconstant piecewise continuous membership functions are introduced to reconstruct the unknown system dynamics without relying on the exact mathematical models. The control law is designed based on the reconstructed fuzzy models. The stability analysis of the whole control system is presented from the Lyapunov function and shows that the tracking errors converge to zero. In order to save online computation time, the fuzzy membership function parameters are determined based on the idea of the OS-Fuzzy-ELM algorithm by randomly assigning the values to them. The simulation results demonstrate the superior performance of the proposed controller.

Accession Number: WOS:000468511200243

Conference Title: 20th IEEE International Conference on High Performance Computing and Communications (HPCC) / 16th IEEE International Conference on Smart City (SmartCity) / 4th IEEE International Conference on Data Science and Systems (DSS)

Conference Date: JUN 28-30, 2018

Conference Location: Exeter, ENGLAND

Conference Sponsors: IEEE, IEEE Comp Soc, IEEE Tech Comm Scalable Comp, Univ Exeter

ISBN: 978-1-5386-6614-2

 


 

Record 9 of 170

Title: Robust controllable FD-FWM based Micro-combs

Author(s): Bao, HL (Bao, Hualong); Cooper, A (Cooper, Andrew); Di Lauro, L (Di Lauro, Luigi); Rowley, M (Rowley, Maxwell); Wetzel, B (Wetzel, Benjamin); Chu, ST (Chu, Sai Tak); Moss, DJ (Moss, Dave J.); Morandotti, R (Morandotti, Roberto); Little, BE (Little, Brent E.); Peccianti, M (Peccianti, Marco); Pasquazi, A (Pasquazi, Alessia)

Book Group Author(s): IEEE

Source: 2018 ASIA COMMUNICATIONS AND PHOTONICS CONFERENCE (ACP)  Book Series: Asia Communications and Photonics Conference and Exhibition  Published: 2018  

Abstract: The FD-FWM is a proven approach to implement coherent Microcomb generation. Comb repetition rates can be finely controlled in a robust way, while maintaining the coherence during the whole process, whereas full-coherent type-I and type-II combs can be accessible. We present our recent advances towards effective control of optical combs exploiting integrated chip-based resonators.

Accession Number: WOS:000459847900128

Conference Title: Asia Communications and Photonics Conference (ACP)

Conference Date: OCT 26-29, 2018

Conference Location: Hangzhou, PEOPLES R CHINA

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Rowley, Maxwell 

HNQ-4318-2023 

0000-0002-2279-2710 

Morandotti, Roberto 

AAU-4702-2020 

 

Morandotti, Roberto 

U-6712-2019 

0000-0001-7717-1519 

Wetzel, Benjamin 

E-9386-2016 

0000-0002-2691-0307 

Chu, Sai T 

D-3312-2014 

0000-0001-8263-8507 

Peccianti, Marco 

F-7127-2011 

0000-0001-8894-496X 

Pasquazi, Alessia 

J-8521-2014 

0000-0003-3330-584X 

 

ISSN: 2162-108X

ISBN: 978-1-5386-6158-1

 


 

Record 10 of 170

Title: GPU-based distortion correction for CMOS positioning camera using star point measurement

Author(s): Bu, F (Bu, Fan); Yao, DL (Yao, Dalei); Qiu, YH (Qiu, Yuehong); Cao, WC (Cao, Weicheng); Wang, L (Wang, Li)

Edited by: Xu B

Source: PROCEEDINGS OF 2018 IEEE 4TH INFORMATION TECHNOLOGY AND MECHATRONICS ENGINEERING CONFERENCE (ITOEC 2018)  Pages: 1247-1251  Published: 2018  

Abstract: Due to machining errors and assembly errors, the optical system of the camera is somewhat different from the ideal model through the pinholes. That means, there are different degrees of non-linear optical distortion between the ideal image and the actual image formed by the camera. In order to improve the positioning accuracy of the camera, distortion correction should be done. This paper puts forward a GPU-Based Star Calibration and Proofreading Algorithm (GBSC-PA). This algorithm is completed by CUDA programmable graphics processor technologies, and a number of lens distortion coefficients are solved using star point images. Moreover, the optimal distortion correction matrix can be used to improve the accuracy and speed of the algorithm greatly. Through the experimental measurements and simulation, the feasibility and efficiency of the new algorithm are verified. Compared with the conventional correction algorithm based on CPU, the speed-up ratio of GPU-based parallel program can be reached to 43.094.

Accession Number: WOS:000491408500245

Conference Title: IEEE 4th Information Technology and Mechatronics Engineering Conference (ITOEC)

Conference Date: DEC 14-16, 2018

Conference Location: Chongqing, PEOPLES R CHINA

Conference Sponsors: IEEE, IEEE Harbin Sect, Global Union Acad Sci & Technol, Chongqing Global Union Acad Sci & Technol, Chongqing Geeks Educ Technol Co Ltd

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

wang, ya 

HQZ-7558-2023 

 

qiu, yue 

IAN-7956-2023 

 

 

ISBN: 978-1-5386-5373-9

 


 

Record 11 of 170

Title: Hyperspectral Band Selection with Convolutional Neural Network

Author(s): Cai, R (Cai, Rui); Yuan, Y (Yuan, Yuan); Lu, XQ (Lu, Xiaoqiang)

Edited by: Lai JH; Liu CL; Chen X; Zhou J; Tan T; Zheng N; Zha H

Source: PATTERN RECOGNITION AND COMPUTER VISION (PRCV 2018), PT IV  Book Series: Lecture Notes in Computer Science  Volume: 11259  Pages: 396-408  DOI: 10.1007/978-3-030-03341-5_33  Published: 2018  

Abstract: Band selection is a kind of dimension reduction method, which tries to remove redundant bands and choose several pivotal bands to represent the entire hyperspectral image (HSI). Supervised band selection algorithms tend to perform well because of the introduction of prior information. However, The traditional methods are based on the entire image, without taking into account the differences in ground categories, and cannot figure out which band is discriminative for a specific category. In this paper, a supervised method is proposed based on the ground category with convolutional neural network (CNN). Firstly, we propose a structure called contribution map which can record discriminative feature location. Secondly, the contribution map is added to CNN to generate a new model called contribution map based CNN (CM-CNN). Thirdly, we apply CM-CNN for HSI classification with the whole bands. Then, we can get the contribution map which records discriminative bands location for each category. Finally, the contribution map guides us to select discriminative bands. We found that CM-CNN model can obtain a satisfactory classification result while preserving the position information of important bands. To verify the superiority of the proposed method, experiments are conducted on HSI classification. The results demonstrated the reliability of the proposed method in HSI classification.

Accession Number: WOS:000846893700033

Conference Title: 1st Chinese Conference on Pattern Recognition and Computer Vision (PRCV)

Conference Date: NOV 23-26, 2018

Conference Location: Guangzhou, PEOPLES R CHINA

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Yuan, Yuan 

ABB-2379-2020 

 

 

ISSN: 0302-9743

eISSN: 1611-3349

ISBN: 978-3-030-03341-5; 978-3-030-03340-8

 


 

Record 12 of 170

Title: Deep Learning-Based Detection and Segmentation for BVS Struts in IVOCT Images

Author(s): Cao, YH (Cao, Yihui); Lu, YF (Lu, Yifeng); Jin, QH (Jin, Qinhua); Jing, J (Jing, Jing); Chen, YD (Chen, Yundai); Li, JN (Li, Jianan); Zhu, R (Zhu, Rui)

Edited by: Stoyanov D; Taylor Z; Balocco S; Sznitman R

Source: INTRAVASCULAR IMAGING AND COMPUTER ASSISTED STENTING AND LARGE-SCALE ANNOTATION OF BIOMEDICAL DATA AND EXPERT LABEL SYNTHESIS  Book Series: Lecture Notes in Computer Science  Volume: 11043  Pages: 55-63  DOI: 10.1007/978-3-030-01364-6_7  Published: 2018  

Abstract: Bioresorbable Vascular Scaffold (BVS) is the latest stent type for the treatment of coronary artery disease. A major challenge of BVS is that once it is malapposed during implantation, it may potentially increase the risks of late stent thrombosis. Therefore it is important to analyze struts malapposition during implantation. This paper presents an automatic method for BVS malapposition analysis in intravascular optical coherence tomography images. Struts are firstly detected by a detector trained through deep learning. Then, struts boundaries are segmented using dynamic programming. Based on the segmentation, apposed and malapposed struts are discriminated automatically. Experimental results show that the proposed method successfully detected 97.7% of 4029 BVS struts with 2.41% false positives. The average Dice coefficient between the segmented struts and ground truth was 0.809. It concludes that the proposed method is accurate and efficient for BVS struts detection and segmentation, and enables automatic malapposition analysis.

Accession Number: WOS:000780421400007

Conference Title: 7th Joint International Workshop on Computing Visualization for Intravascular Imaging and Computer Assisted Stenting (CVII-STENT) / 3rd International Workshop on Large-scale Annotation of Biomedical data and Expert Label Synthesis (LABELS)

Conference Date: SEP 16, 2018

Conference Location: Granada, SPAIN

ISSN: 0302-9743

eISSN: 1611-3349

ISBN: 978-3-030-01364-6; 978-3-030-01363-9

 


 

Record 13 of 170

Title: Design of Spatial Oval Plane Mirror and Its Support Structure

Author(s): Chai, WY (Chai Wenyi); Hu, YM (Hu Yongming); Wang, CJ (Wang Chenjie); Chen, S (Chen Su); Feng, S (Feng Song)

Edited by: Guofan J; Guangjun Z

Source: FOURTH SEMINAR ON NOVEL OPTOELECTRONIC DETECTION TECHNOLOGY AND APPLICATION  Book Series: Proceedings of SPIE  Volume: 10697  Article Number: UNSP 1069752  DOI: 10.1117/12.2307063  Published: 2018  

Abstract: For the diameter of 150mm elliptical flat mirror that used in the space, Selected the zerodur material and a lightweight design is conducted in the way of selected back-open-architecture with symmetrical axisymmetric arrangement, and in order to evaluate the effect of thermal stress from -10 degrees C to 45 degrees C on the mirror, a reflection mirror is designed based on the multipoint flexible support. The mirror component's mechanic and thermodynamic characteristics is analyzed with the simulation software, the support structure parameters are optimized, that can be used to evaluate the effect of gravity, assembly stress, and thermal stress load on mirror, while ensuring the component's stiffness and strength. According to the design condition developed a product and carried out mechanic and thermodynamic environment, the product could meet the shape accuracy PV lambda/3, RMS lambda/30 in the condition of thermodynamic environment, and the shape accuracy PV lambda/5, RMS lambda/40 in the condition of ground gravity and assembly stress (lambda= 632.8nm), while the product can withstand with the mechanical oscillation environment sinusoidal oscillation 10g, RMS random oscillatin acceleration 14.4g.

Accession Number: WOS:000435407700168

Conference Title: 4th Seminar on Novel Optoelectronic Detection Technology and Application

Conference Date: OCT 24-26, 2017

Conference Location: Nanjing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, Chinese Acad Engn, Div Informat & Elect Engn, Sci & Technol Low Light Level Night Vis Lab, N Night Vis Technol Co Ltd Corp

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1948-7

 


 

Record 14 of 170

Title: The Influence of The stray light on MTF in Optical System

Author(s): Chao, M (Chao, Mei); Rui, Q (Rui, Qu); Aqi, Y (Aqi, Yan); Ma, YJ (Ma Yingjun)

Edited by: McBride JW; Tan J; Han S; Zhang X

Source: OPTICAL PRECISION MANUFACTURING, TESTING, AND APPLICATIONS  Book Series: Proceedings of SPIE  Volume: 10847  Article Number: UNSP 1084702  DOI: 10.1117/12.2501931  Published: 2018  

Abstract: The relationship between the illumination of the stray light and the modulation transfer function (MTF) of the optical imaging system is deducted by the manuscript. With the analysis, an experiment has been designed to confirm the analysis. The experiment result shows that: the exist of stray light will lead to the optical imaging system MTF reduce, the new imaging MTF is related to the MTF in ideal condition, object contrast, the illumination of the object and stray light.

Accession Number: WOS:000455301400001

Conference Title: Conference on Optical Precision Manufacturing, Testing, and Applications / International Symposium on Optoelectronic Technology and Application / Annual Conference of the Chinese-Society-for-Optical-Engineering (CSOE)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Acad & Res, Dept Cooperat & Coordinat Ind, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

qi, rui 

HGU-2541-2022 

 

Ma, Ying 

HKN-2215-2023 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2337-8

 


 

Record 15 of 170

Title: Autofocus Window Selection Algorithm Based on Saliency detection

Author(s): Chen, G (Chen, Guang); Fan, XW (Fan, Xuewu)

Edited by: Yu Y; Zuo C; Qian K

Source: SIXTH INTERNATIONAL CONFERENCE ON OPTICAL AND PHOTONIC ENGINEERING (ICOPEN 2018)  Book Series: Proceedings of SPIE  Volume: 10827  Article Number: 108271J  DOI: 10.1117/12.2500193  Published: 2018  

Abstract: Focus window selection is a very important step in the process of Auto-Focusing(AF). This paper proposes a new method for the selection of focus window, where a fast AF window selection algorithm based on image saliency region extraction is used to cut down the computation time and overcome the disturbance of the background in the automatic focusing system. Firstly, the salient object detection method based on the Minimum Barrier Plus(MB+) Transform algorithm is utilized to calculate the salient regions of the image in order to obtain a feature map. Secondly, a threshold method is used to de-noise the feature map. Then, correlation treatment method and boundary expansion method are used to build the focus window, of which the size and position are self-adaptive with the target. To the end, in this study, a comparison is made between the commonly used algorithm and the introduced window selection algorithm based on the improved MB + saliency detection in terms of accuracy and computation time. The result obtained indicates that our algorithm has better performance in highlighting the potential focus targets. And its better accuracy and less computation time make it suitable for tasks in general scenes and complex backgrounds.

Accession Number: WOS:000450859600054

Conference Title: 6th International Conference on Optical and Photonic Engineering (icOPEN)

Conference Date: MAY 08-11, 2018

Conference Location: Shanghai, PEOPLES R CHINA

Conference Sponsors: Opt & Photon Soc Singapore, Chinese Laser Press, Shanghai Univ, Xian Technol Univ, Xian Univ Posts & Telecommunicat, Opt & Photon Soc Singapore China, Nanjing Univ Sci & Technol, Sichuan Univ, Japan Soc Elect Microscopy, Orbbec 3D, LIGHTSOFT, CISPES, China Int Optoelectron Expo

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2257-9

 


 

Record 16 of 170

Title: Real-time Detection and Recognition Algorithm for Hyperspectral Small Targets on Ocean

Author(s): Chen, JX (Chen Jiaxin); Zhang, G (Zhang Geng); Hu, BL (Hu Bingliang)

Edited by: Guina M; Gong H; Lu J; Liu D

Source: OPTICAL SENSING AND IMAGING TECHNOLOGIES AND APPLICATIONS  Book Series: Proceedings of SPIE  Volume: 10846  Article Number: UNSP 108460O  DOI: 10.1117/12.2503901  Published: 2018  

Abstract: Small anomaly detection in ocean evironment is an important problem in airborne remote sensing image processing, especially in hyperspectral data. Traditional algorithms solve this problem by finding the pixels have different appearance pattern with the background. However, these algorithm are not suitable for real-time applications. In this paper, we propose to learn the hyperspectral model of the seawater and localize the targets whose spectral feature do not well fit the trained model. This algorithm only uses historical information and is suitable to be used on airborne line-scanning data. Since hyperspectral property of ocean water is relatively stable, we use Gaussian mixture model to encode the statistical features of the background. Experimental results demonstrated that the proposed algorithm significantly improves processing efficiency in comparison with conventional methods, and maintains high accuracy with regard to other methods.

Accession Number: WOS:000455303600022

Conference Title: Conference on Optical Sensing and Imaging Technologies and Applications / International Symposium on Optoelectronic Technology and Application (OTA) / Annual Conference of the Chinese-Society-for-Optical-Engineering (CSOE)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Dept Cooperat & Coordinat Ind Acad & Res, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2335-4

 


 

Record 17 of 170

Title: An automatic image enhancement method based on the improved HCTLS

Author(s): Chen, JY (Chen, Junyu); Liu, JH (Liu, Jiahang); Zhou, CH (Zhou, Chenghu); Zhu, F (Zhu, Feng); Chen, TQ (Chen, Tieqiao); Zhang, H (Zhang, Hang)

Book Group Author(s): IEEE

Source: 2018 10TH IAPR WORKSHOP ON PATTERN RECOGNITION IN REMOTE SENSING (PRRS)  Book Series: IAPR Workshop on Pattern Recognition in Remote Sensing  Published: 2018  

Abstract: Remote sensing images often suffer low contrast, and the efficiency and robustness of contrast enhancement for remote sensing images is still a challenge. To meet with the requirements of applications, Liu et al recently proposed a self-adaptive contrast enhancement method (HCTLS) based on the histogram compacting transform (HCT). In this method, some gray levels on which the frequency is smaller than a certain reference, will merged into their adjacent levels for a compact level distribution. However, if the merged levels whose corresponding pixels in some connected regions, local contrast of these connected regions will decrease, even disappear. In this paper, an improved enhancement method (DPHCT) for remote sensing image based on the HCTLS is presented for preserving more the local detail and contrast. Firstly, extracting the connected regions from the enhanced result by HCT where the local contrast is decreased or disappeared. These connected regions are decomposed into the inner regions and the boundary regions adaptively. Then, construct pixel values by using the unified brightness function to maintain the contrast for the connected regions inside. At the same time eliminate stitching lines by using a weighted fusion spliced algorithm to eliminate the problem of borders outstanding in result of intensity roughness. Finally, the image is normalized into [0, 255] by linear stretch. Experimental results indicate that the proposed algorithm not only can enhance the global contrast but also can preserve local contrast and details.

Accession Number: WOS:000467742100019

Conference Title: 10th IAPR Workshop on Pattern Recognition in Remote Sensing (PRRS)

Conference Date: AUG 19-20, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Int Assoc Pattern Recognit

ISSN: 2377-0198

ISBN: 978-1-5386-8479-5

 


 

Record 18 of 170

Title: ROBUST ADAPTIVE SPARSE LEARNING METHOD FOR GRAPH CLUSTERING

Author(s): Chen, ML (Chen, Mulin); Wang, Q (Wang, Qi); Li, XL (Li, Xuelong)

Book Group Author(s): IEEE

Source: 2018 25TH IEEE INTERNATIONAL CONFERENCE ON IMAGE PROCESSING (ICIP)  Book Series: IEEE International Conference on Image Processing ICIP  Pages: 1618-1622  Published: 2018  

Abstract: Graph clustering aims to group the data into clusters according to a similarity graph, and has received sufficient attention in computer vision. As the basis of clustering, the quality of graph affects the results directly. In this paper, a Robust Adaptive Sparse Learning (RASL) method is proposed to improve the graph quality. The contributions made in this paper are three fold: (1) the sparse representation technique is employed to enforce the graph sparsity, and the l(2,1) norm is introduced to improve the robustness; (2) the intrinsic manifold structure is captured by investigating the local relationship of data points; (3) an efficient optimization algorithm is designed to solve the proposed problem. Experimental results on various real-world benchmark datasets demonstrate the promising results of the proposed graph-based clustering method.

Accession Number: WOS:000455181501149

Conference Title: 25th IEEE International Conference on Image Processing (ICIP)

Conference Date: OCT 07-10, 2018

Conference Location: Athens, GREECE

Conference Sponsors: Inst Elect & Electron Engneers, IEEE Signal Processing Soc

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Xuelong 

Z-3785-2019 

 

li, xiang 

GWM-6319-2022 

 

wang, qi 

ITT-9652-2023 

 

sun, huan 

JEO-7152-2023 

 

Li, Tao 

IWU-9607-2023 

 

wang, xi 

JNT-5162-2023 

 

sun, huan 

IUN-8843-2023 

 

Li, Xuelong 

ABF-3381-2020 

 

Wang, Qi 

 

0000-0002-7028-4956 

 

ISSN: 1522-4880

ISBN: 978-1-4799-7061-2

 


 

Record 19 of 170

Title: Non-contact Blood Pressure Measurement Based on Pulse Transit Time

Author(s): Chen, PY (Chen Pengyong); Zhou, ZF (Zhou Zuofeng); Zhao, T (Zhao Ting); Cao, JZ (Cao Jianzhong); Yang, HT (Yang Hongtao)

Edited by: Jiang X; Hwang JN

Source: TENTH INTERNATIONAL CONFERENCE ON DIGITAL IMAGE PROCESSING (ICDIP 2018)  Book Series: Proceedings of SPIE  Volume: 10806  Article Number: UNSP 108065J  DOI: 10.1117/12.2503036  Published: 2018  

Abstract: A non-contact blood pressure measurement method was proposed and achieved based on theoretical deduction of the relationship among pulse transit time, heart rate and blood pressure. Pulse transit time was estimated using heart rate and phase difference of pulse wave which were obtained from color videos through imaging photoplethysmographic. Parameters of the functional relationship were determined through curve fitting with experiment data. Error analysis was processed with an Omron electronic sphygmomanometer as reference to verify the accuracy of blood pressure obtained using the proposed method. The error of acquired systolic blood pressure varied from -2.40 to 3.43 percent. The error of acquired diastolic blood pressure varied from -6.88 to 5.26 percent.

Accession Number: WOS:000452819600197

Conference Title: 10th International Conference on Digital Image Processing (ICDIP)

Conference Date: MAY 11-14, 2018

Conference Location: E China Normal Univ, Shanghai, PEOPLES R CHINA

Conference Sponsors: Shanghai Key Lab Multidimens Informat Proc, Int Assoc Comp Sci & Informat Technol

Conference Host: E China Normal Univ

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2200-5

 


 

Record 20 of 170

Title: Bibliometric trend analysis on global image processing research

Author(s): Chen, SC (Chen Songcong); Wang, YJ (Wang Yajun); Qiu, S (Qiu Shi)

Edited by: Guina M; Gong H; Lu J; Liu D

Source: OPTICAL SENSING AND IMAGING TECHNOLOGIES AND APPLICATIONS  Book Series: Proceedings of SPIE  Volume: 10846  Article Number: UNSP 1084636  DOI: 10.1117/12.2505675  Published: 2018  

Abstract: In this work, bibliometric analysis was applied to evaluate developing trend of image research. The data were collected from 2013 to 2017 from the Science Citation Index database. The published papers from different subjects, journals, authors, countries and keywords distributed in several aspects of research topics proved that image research increased rapidly over recent five years.

Accession Number: WOS:000455303600111

Conference Title: Conference on Optical Sensing and Imaging Technologies and Applications / International Symposium on Optoelectronic Technology and Application (OTA) / Annual Conference of the Chinese-Society-for-Optical-Engineering (CSOE)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Dept Cooperat & Coordinat Ind Acad & Res, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2335-4

 


 

Record 21 of 170

Title: Image Motion Compensation Method On Reflector Multi Degree Of Freedom Of Aerial Cameras

Author(s): Chen, WN (Chen Weining); Gao, B (Gao Bo); Peng, JW (Peng Jianwei); Mei, C (Mei Chao); Zhang, HW (Zhang Hongwei); Fei, JQ (Fei Jiaqi); Shi, K (Shi Kui); Zhang, GD (Zhang Guangdong)

Edited by: Guina M; Gong H; Lu J; Liu D

Source: OPTICAL SENSING AND IMAGING TECHNOLOGIES AND APPLICATIONS  Book Series: Proceedings of SPIE  Volume: 10846  Article Number: UNSP 108460K  DOI: 10.1117/12.2503870  Published: 2018  

Abstract: When the aerial camera photograph, a variety of image motion is caused by prior to the flight, pitching, rolling and vibration and other reasons, thus leading to the existence of relative motion of the illuminated objects in the focal plane of a photosensitive medium, the image is blured, and the imaging quality of the camera is seriously affected. Various causes of image motion and effects on image is analyzed by this paper, the necessity of image motion compensation is expounded. By analyzing existed methods of image motion compensation, and on this basis, a new multi degree of freedom motion compensation method is designed, through the parallel mechanism motion, for image motion compensation by optical image motion compensation principle, a variety of airborne camera to take pictures of the image motion also can be eliminated.

Accession Number: WOS:000455303600018

Conference Title: Conference on Optical Sensing and Imaging Technologies and Applications / International Symposium on Optoelectronic Technology and Application (OTA) / Annual Conference of the Chinese-Society-for-Optical-Engineering (CSOE)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Dept Cooperat & Coordinat Ind Acad & Res, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2335-4

 


 

Record 22 of 170

Title: PixelLink: Detecting Scene Text via Instance Segmentation

Author(s): Deng, D (Deng, Dan); Liu, H (Liu, Haifeng); Li, XL (Li, Xuelong); Cai, D (Cai, Deng)

Book Group Author(s): AAAI

Source: THIRTY-SECOND AAAI CONFERENCE ON ARTIFICIAL INTELLIGENCE / THIRTIETH INNOVATIVE APPLICATIONS OF ARTIFICIAL INTELLIGENCE CONFERENCE / EIGHTH AAAI SYMPOSIUM ON EDUCATIONAL ADVANCES IN ARTIFICIAL INTELLIGENCE  Book Series: AAAI Conference on Artificial Intelligence  Pages: 6773-6780  Published: 2018  

Abstract: Most state-of-the-art scene text detection algorithms are deep learning based methods that depend on bounding box regression and perform at least two kinds of predictions: text/nontext classification and location regression. Regression plays a key role in the acquisition of bounding boxes in these methods, but it is not indispensable because text/non-text prediction can also be considered as a kind of semantic segmentation that contains full location information in itself. However, text instances in scene images often lie very close to each other, making them very difficult to separate via semantic segmentation. Therefore, instance segmentation is needed to address this problem. In this paper, PixelLink, a novel scene text detection algorithm based on instance segmentation, is proposed. Text instances are first segmented out by linking pixels within the same instance together. Text bounding boxes are then extracted directly from the segmentation result without location regression. Experiments show that, compared with regression-based methods, PixelLink can achieve better or comparable performance on several benchmarks, while requiring many fewer training iterations and less training data.

Accession Number: WOS:000485488906105

Conference Title: 32nd AAAI Conference on Artificial Intelligence / 30th Innovative Applications of Artificial Intelligence Conference / 8th AAAI Symposium on Educational Advances in Artificial Intelligence

Conference Date: FEB 02-07, 2018

Conference Location: New Orleans, LA

Conference Sponsors: AAAI

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Xuelong 

ABF-3381-2020 

 

 

ISSN: 2159-5399

eISSN: 2374-3468

ISBN: 978-1-57735-800-8

 


 

Record 23 of 170

Title: Manufacturing and Testing of Surface Modified Silicon Carbide Aspheric Mirror

Author(s): Ding, JT (Ding Jiao Teng); Fan, XW (Fan Xue Wu); Pang, ZH (Pang Zhi Hai); Feng, LJ (Feng Liang Jie); Chen, QF (Chen Qin Fang); Ma, Z (Ma Zhen)

Edited by: Ma X; Fan B; Wan Y; Russell A; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES: LARGE MIRRORS AND TELESCOPES  Book Series: Proceedings of SPIE  Volume: 10837  Article Number: UNSP 108370V  DOI: 10.1117/12.2504853  Published: 2018  

Abstract: The manufacturing and testing of a surface modified silicon carbide mirror with a bowl-shaped structure was introduced. The entire process flow includes pre-modification silicon carbide substrate processing, silicon carbide substrate surface modification, and silicon modified layer processing. Firstly, before the modification, the conventional processing method of silicon carbide was used, and the effect of the support form on the figure was eliminated by multiple direction rotation testing. At the same time, the self-aligned compensation cross-test was completed and the accuracy of the aspherical surface coefficient was verified. In addition, the polishing process of the silicon modified layer material was studied, and the optimum process parameters suitable for polishing the silicon modified layer material were found out. Based on the above experiments, the modified optical processing adopts a combination of two kinds of polishing technology: flexible chemical mechanical polishing (FCMP) and ion beam figuring (IBF). The surface roughness and surface finish of silicon modified layer are improved by flexible chemical mechanical polishing technology. The high figure accuracy of silicon modified layer is achieved finally by ion beam figuring technology. Finally, the final result of the mirror after IBF is: the RMS values of the figure and roughness in the phi 450 mm aperture is 0.01 lambda (lambda= 632.8 nm) and 0.52 nm. The mirror's processing results fully meet the design specifications.

Accession Number: WOS:000459720200030

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies - Large Mirrors and Telescopes

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, Chinese Opt Soc, SPIE

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2317-0

 


 

Record 24 of 170

Title: A Low Light SCMOS Imaging System Based on FPGA

Author(s): Dong, M (Dong, Mao); Leng, HB (Leng Hanbing); Wei, WP (Wei Wenpeng); Li, HB (Li Hongbo); Gao, XH (Gao, Xiaohui)

Edited by: Jiang X; Hwang JN

Source: TENTH INTERNATIONAL CONFERENCE ON DIGITAL IMAGE PROCESSING (ICDIP 2018)  Book Series: Proceedings of SPIE  Volume: 10806  Article Number: UNSP 108063O  DOI: 10.1117/12.2503122  Published: 2018  

Abstract: This paper proposed an imaging system based on Fairchild's low-illumination SCMOS detector CIS2521F and ALTERA's Cyclone IV E EP4CE40U19I7N FPGA, which has the characteristics of high sensitivity and low noise. Based on its electronic parameters, a real time imaging system is developed. The hardware system structure of the imaging system mainly consists of a SCMOS image sensor, a programmable gate array (FPGA), a driving circuit of a combination of DDR2 and a Camera Link transfer circuit. The software system consists of SCMOS initialization module, automatic exposure control module and image enhancement module, which has the capabilities of automatic exposure control and low-light image enhancement.
Automatic exposure control module is proposed based on the image gray statistical algorithm. It is used to choose the best exposure time in the complex light situation. The image enhancement module is proposed based on an improved Dual platform histogram enhancement algorithm. The improved histogram equalization algorithm can avoid many image issues, such as over-enhancement, uniform area noise amplification, bleaching etc. The details of the image are preserved well and the signal to noise ratio of the image is improved by this method. The imaging results show that the system is working normally. And the imaging quality meets the expected requirements.

Accession Number: WOS:000452819600131

Conference Title: 10th International Conference on Digital Image Processing (ICDIP)

Conference Date: MAY 11-14, 2018

Conference Location: E China Normal Univ, Shanghai, PEOPLES R CHINA

Conference Sponsors: Shanghai Key Lab Multidimens Informat Proc, Int Assoc Comp Sci & Informat Technol

Conference Host: E China Normal Univ

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Hong-bo 

A-1199-2015 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2200-5

 


 

Record 25 of 170

Title: Design of a mid-wavelength infrared optical system based on high frame rate measuring

Author(s): Duan, J (Duan Jing); Liu, K (Liu Kai); Shan, QS (Shan Qiusha); Yan, PP (Yan Peipei); Jiang, K (Jiang Kai)

Edited by: Chu J; Liu W; Jiang H

Source: FIFTH CONFERENCE ON FRONTIERS IN OPTICAL IMAGING TECHNOLOGY AND APPLICATIONS (FOI 2018)  Book Series: Proceedings of SPIE  Volume: 10832  Article Number: UNSP 1083213  DOI: 10.1117/12.2508315  Published: 2018  

Abstract: In order to effectively improve the frame of mid-wavelength infrared measuring system, based on a 320 x256 cooled staring focal plane array(FPA) detector, pixel size 30 mu mx30 mu m, a special optical system combined with time-sharing exposure technology was designed. In this paper, the working wavelength is 3 mu m similar to 5 mu m, the temperature range is -30 degrees C similar to 40 degrees C, this system can realize 200mm focal length, the F-number is 4 and the full field of view is 3.44 degrees. A re-imaging refractive system was adopted in this designed optical system consists of main optics and projection components. First of all, the working principle of the measuring system was introduced in detail. Secondly, on the basis of variety of the distance and temperature, a focusing lens was presented in this system to adjust to produce a clear image. Last but not the least, to improve image quality and environment adaptability, the analysis of temperature change and narcissus effect was described particularly. The design results prove that at the spatial frequency of 17 lp/mm, the MTF of the optical system is greater than 0.58(the axis MTF of the optical is greater than 0.65), the system can offer a high resolution and excellent images. The measuring system implements 400fps measuring system consisting of four 100fps detectors.

Accession Number: WOS:000454579900037

Conference Title: 5th Conference on Frontiers in Optical Imaging Technology and Applications (FOI)

Conference Date: JUL 25-27, 2018

Conference Location: Hefei, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Opt Engn, Photoelectron Technol Comm, Key Lab Polarizat Imaging Detect Technol, Chinese Acad Engn, Natl Nat Sci Fdn China

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2290-6

 


 

Record 26 of 170

Title: Design of a long focal length mid-wavelength infrared optical system

Author(s): Duan, J (Duan Jing); Zhang, ZP (Zhang Zhanpeng); Liu, K (Liu Kai); Shan, QS (Shan Qiusha); Jiang, K (Jiang Kai); Yan, PP (Yan Peipei)

Edited by: Guofan J; Guangjun Z

Source: FOURTH SEMINAR ON NOVEL OPTOELECTRONIC DETECTION TECHNOLOGY AND APPLICATION  Book Series: Proceedings of SPIE  Volume: 10697  Article Number: UNSP 106971O  DOI: 10.1117/12.2314992  Published: 2018  

Abstract: Based on a 640x512 cooled staring focal plane array(FPA) detector, pixel size 15 mu mx15 mu m, a long focal length mid-wavelength infrared optical system was designed. In this paper, the working wavelength is 3 mu m similar to 5 mu m, the temperature range is -30 degrees C similar to+50 degrees C, this system can realize 1000mm focal length, the F-number is 4, the full field of view is 0.70 degrees, satisfy 100% cold shield efficiency. A re-imaging refractive system was adopted in this designed optical system consists of a main objective group and a projection group. First of all, the structural selection and the initial parameter calculation were introduced. Secondly, on the basis of variety of the temperature, a focusing len was presented in this system to adjust to produce a clear image. Last but not the least, to improve image quality and environment adaptability, the analysis of temperature change and ghost image were described particularly. The design results prove that at the spatial frequency of 33 lp/mm, the axis MTF of the optical system is greater than 0.35, the system can offer a high resolution and excellent images, and it has the advantages of good adaptability, simple structure, easy to adjust, and high transmittance.

Accession Number: WOS:000435407700056

Conference Title: 4th Seminar on Novel Optoelectronic Detection Technology and Application

Conference Date: OCT 24-26, 2017

Conference Location: Nanjing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, Chinese Acad Engn, Div Informat & Elect Engn, Sci & Technol Low Light Level Night Vis Lab, N Night Vis Technol Co Ltd Corp

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1948-7

 


 

Record 27 of 170

Title: Rotationally asymmetric figure measurement of optical flat using rotational shear phase measuring deflectometry

Author(s): E, KW (E, Kewei); Li, DH (Li, Dahai); Zhao, JK (Zhao, Jianke); Xue, X (Xue, Xun); Li, J (Li, Jing); Li, K (Li, Kun); Liu, SK (Liu, Shangkuo); Wang, ZF (Wang, Zhengfeng); YanZhou (YanZhou)

Edited by: Lv Y

Source: GLOBAL INTELLIGENCE INDUSTRY CONFERENCE (GIIC 2018)  Book Series: Proceedings of SPIE  Volume: 10835  Article Number: UNSP 108350H  DOI: 10.1117/12.2504666  Published: 2018  

Abstract: Absolute measurement with Phase Measuring Deflectometry (PMD) is gaining importance in industry, but the accuracy of deflectometry metrology is strongly influenced by the level of calibration. In order to improve the accuracy of the PMD to a level where it competes with interferometry, a reference calibration process is commonly carried out to carefully calibrate the systematic errors. The systematic errors obtained by measuring a high quality reference surface can be subtracted from the measurement of a test surface to get its actual surface, however, it could introduce the surface error of reference into the measurement. To alleviate this problem, this paper introduces a technique named "rotational shear phase measuring deflectometry", this technique have the ability of removing the rotationally asymmetric systematic errors from the test surface without using a reference surface. The validity of this technique has been demonstrated by simulation and our experimental results.

Accession Number: WOS:000452819500015

Conference Title: Global Intelligent Industry Conference (GIIC)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Engn, Div Informat & Elect Engn, Chinese Soc Opt Engn, Beijing Econ Technol Dev Area

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Haibing 

HZI-7577-2023 

0000-0002-6374-4694 

Li, Dahai 

HCH-7167-2022 

0000-0002-2382-9917 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2300-2

 


 

Record 28 of 170

Title: A Study on Classification of Mineral Pigments based on Spectral Angle Mapper and Decision Tree

Author(s): Fan, C (Fan, Cheng); Zhang, PC (Zhang, Pengchang); Wang, S (Wang, Shuang); Hu, BL (Hu, Bingliang)

Edited by: Jiang X; Hwang JN

Source: TENTH INTERNATIONAL CONFERENCE ON DIGITAL IMAGE PROCESSING (ICDIP 2018)  Book Series: Proceedings of SPIE  Volume: 10806  Article Number: UNSP 108065Z  DOI: 10.1117/12.2503088  Published: 2018  

Abstract: Mineral pigments are widely used in the ancient Chinese painting. Classification and identification of mineral pigments are important for cultural heritages conservation. As a non-destructive method, hyperspectral classification is based on the knowledge that different mineral pigments have distinct reflection spectra. This study acquired the hyperspectral images of 38 mineral pigments and established a reflection spectral library. Then Spectral Angle Mapper (SAM) was used to classify the test data and 0.20 was selected as the optimal threshold. For pigments having similar color and spectra, SAM was unable to classify them correctly. Therefore, decision tree, a machine learning method, was applied to the classification of the pigments misclassified by SAM. For each pigment, 7500 samples were randomly selected as training data and 2500 samples were selected as test data. Though the ID3 algorithm, a decision tree for pigment classification was learned. Then test data was classified by the decision tree. Compared with SAM, the accuracy of classification observed from decision tree was obviously improved. For most pigments, the accuracy of decision tree reached 94%. The results revealed that the SAM combined with decision tree could effectively achieve a discrimination of all the 38 mineral pigments in the experiment, thus providing a new approach for mineral pigments classification.

Accession Number: WOS:000452819600213

Conference Title: 10th International Conference on Digital Image Processing (ICDIP)

Conference Date: MAY 11-14, 2018

Conference Location: E China Normal Univ, Shanghai, PEOPLES R CHINA

Conference Sponsors: Shanghai Key Lab Multidimens Informat Proc, Int Assoc Comp Sci & Informat Technol

Conference Host: E China Normal Univ

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Mengqi 

AAG-6804-2021 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2200-5

 


 

Record 29 of 170

Title: Fully Utilizing High Power Diode Lasers by Synergizing Diode Laser Light Sources and Beam Shaping Micro-Optics

Author(s): Fan, YM (Fan, Yingmin); Wang, JW (Wang, Jingwei); Cai, L (Cai, Lei); Mitra, T (Mitra, Thomas); Hauschild, D (Hauschild, Dirk); Zah, CE (Zah, Chung-En); Liu, XS (Liu, Xingsheng)

Edited by: Glebov AL; Leisher PO

Source: COMPONENTS AND PACKAGING FOR LASER SYSTEMS IV  Book Series: Proceedings of SPIE  Volume: 10513  Article Number: UNSP 105130H  DOI: 10.1117/12.2293612  Published: 2018  

Abstract: High power diode lasers (HPDLs) offer the highest wall-plug efficiency, highest specific power (power-to-weight ratio), arguably the lowest cost and highest reliability among all laser types. However, the poor beam quality of commercially HPDLs is the main bottleneck limiting their direct applications requiring high brightness at least in one dimension. In order to expand the applications of HPDLs, beam shaping and optical design are essential. In this work, we report the recent progresses on maximizing applications of HPDLs by synergizing diode laser light source and beam shaping micro-optics. Successful examples of matching of diode laser light sources and beam shaping micro-optics driving new applications are presented.

Accession Number: WOS:000432464600008

Conference Title: Conference on Components and Packaging for Laser Systems IV

Conference Date: JAN 30-FEB 01, 2018

Conference Location: San Francisco, CA

Conference Sponsors: SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

YU, Wei 

HTP-9667-2023 

 

ZAH, CHUNG-EN 

R-3016-2019 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1512-0; 978-1-5106-1511-3

 


 

Record 30 of 170

Title: GAN and DCN Based Multi-step Supervised Learning for Image Semantic Segmentation

Author(s): Fang, J (Fang, Jie); Cao, XQ (Cao, Xiaoqian)

Edited by: Lai JH; Liu CL; Chen X; Zhou J; Tan T; Zheng N; Zha H

Source: PATTERN RECOGNITION AND COMPUTER VISION, PT II  Book Series: Lecture Notes in Computer Science  Volume: 11257  Pages: 28-40  DOI: 10.1007/978-3-030-03335-4_3  Published: 2018  

Abstract: Image semantic segmentation contains two sub-tasks, segmenting and labeling. However, the recent fully convolutional network (FCN) based methods often ignore the first sub-task and consider it as a direct labeling one. Even though these methods have achieved competitive performances, they obtained spatially fragmented and disconnected outputs. The reason is that, pixel-level relationships inside the deepest layers become inconsistent since traditional FCNs do not have any explicit pixel grouping mechanism. To address this problem, a multi-step supervised learning method, which contains image-level supervised learning step and pixel-level supervised learning step, is proposed. Specifically, as for the visualized result of image semantic segmentation, it is actually an image-to-image transformation problem, from RGB domain to category label domain. The recent conditional generative adversarial network (cGAN) has achieved significant performance for image-to-image generation task, and the generated image remains good regional connectivity. Therefore, a cGAN supervised by RGB-category label map is used to obtain a coarse segmentation mask, which avoids generating disconnected segmentation results to a certain extent. Furthermore, an interaction information (II) loss term is proposed for cGAN to remain the spatial structure of the segmentation mask. Additionally, dilated convolutional networks (DCNs) have achieved significant performance in object detection field, especially for small objects because of its special receptive field settings. Specific to image semantic segmentation, if each pixel is seen as an object, this task can be transformed to object detection. In this case, combined with the segmentation mask from cGAN, a DCN supervised by the pixel-level label is used to finalize the category recognition of each pixel in the image. The proposed method achieves satisfactory performances on three public and challenging datasets for image semantic segmentation.

Accession Number: WOS:000846888700003

Conference Title: 1st Chinese Conference on Pattern Recognition and Computer Vision (PRCV)

Conference Date: NOV 23-26, 2018

Conference Location: Guangzhou, PEOPLES R CHINA

ISSN: 0302-9743

eISSN: 1611-3349

ISBN: 978-3-030-03335-4; 978-3-030-03334-7

 


 

Record 31 of 170

Title: A Noise-Resistant Stereo Matching Algorithm Integrating Regional Information

Author(s): Feng, HH (Feng Huahui); Zhang, G (Zhang Geng); Zhang, X (Zhang Xin); Hu, BL (Hu Bingliang)

Book Group Author(s): IEEE

Source: 2018 IEEE 3RD INTERNATIONAL CONFERENCE ON IMAGE, VISION AND COMPUTING (ICIVC)  Pages: 952-955  Published: 2018  

Abstract: Focusing on the problem existing in stereo matching that low-SNR image, such as images collected at night, we propose a novel matching framework based on semi-global matching algorithm and AD-Census. This algorithm extends the original algorithms in two ways. First, image segmentation information as an additional constraint is added that solve the problem of incomplete path and improve the accuracy of cost calculation. Second, the matching cost volume is calculated with AD-SoftCensus measure that minimizes the impact of noise on the quality of matching by changing the pattern of census descriptor from binary to trinary. Results of Middlebury standard test data show that the algorithm significantly improves the precision of matching. In addition, a low-light binocular platform is built to test our method in night environment. Results show the disparity maps are more accurate compared to previous methods.

Accession Number: WOS:000448170000185

Conference Title: 3rd IEEE International Conference on Image, Vision and Computing (ICIVC)

Conference Date: JUN 27-29, 2018

Conference Location: Chongqing, PEOPLES R CHINA

Conference Sponsors: IEEE, Chongqing Univ Posts & Telecommunicat

ISBN: 978-1-5386-4991-6

 


 

Record 32 of 170

Title: Design of High - reliability and HD Video Remote Surveillance System

Author(s): Feng, J (Feng, Jia); Yang, L (Yang, Lei); Bian, H (Bian, He); Wang, H (Wang, Hua); Zhang, HF (Zhang, Haifeng); Huang, HM (Huang, Huimin); Liu, LQ (Liu, Liqiang)

Edited by: Jiang X; Hwang JN

Source: TENTH INTERNATIONAL CONFERENCE ON DIGITAL IMAGE PROCESSING (ICDIP 2018)  Book Series: Proceedings of SPIE  Volume: 10806  Article Number: UNSP 1080647  DOI: 10.1117/12.2503108  Published: 2018  

Abstract: Remote video monitoring has become increasingly important for monitoring the security of purpose locations. Most of the surveillance system needs high-definition (HD) video. Multi-channel HD video data real-time transmission and data transmission security are two of the factors restricting the development of remote monitoring system. To solve this problem, this paper presents a new high-definition video surveillance system program, high-definition camera video by video relay input to high-definition video encoder, high-definition video encoder for data compression, compressed data input HD video decoder after long-distance transmission by Gigabit Ethernet, high-definition video decoder to decode the compressed data, then the video data input DVR after decompression, the video data may be stored and can be displayed in real time. A balanced algorithm is used to adapt transmission bandwidth and a iterative algorithm is used to smooth out random packets loss rate. After testing, the system can transmits five hundred compressed video data and have excellent expansibility; data transmission is very secure because of independent Ethernet and encryption algorithm.

Accession Number: WOS:000452819600150

Conference Title: 10th International Conference on Digital Image Processing (ICDIP)

Conference Date: MAY 11-14, 2018

Conference Location: E China Normal Univ, Shanghai, PEOPLES R CHINA

Conference Sponsors: Shanghai Key Lab Multidimens Informat Proc, Int Assoc Comp Sci & Informat Technol

Conference Host: E China Normal Univ

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2200-5

 


 

Record 33 of 170

Title: Design of SiC mirror subsystem of a space-based astronomy telescope

Author(s): Feng, LJ (Feng Liang-jie); Ding, JT (Ding Jiao-teng); Zou, GY (Zou Gang-Yi)

Edited by: Ma X; Fan B; Wan Y; Russell A; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES: LARGE MIRRORS AND TELESCOPES  Book Series: Proceedings of SPIE  Volume: 10837  Article Number: UNSP 108370A  DOI: 10.1117/12.2504931  Published: 2018  

Abstract: A F450mm primary mirror subsystem of a space-based astronomy telescope was designed with mass, optical surface distortion and reflectivity requirement. The open-back primary mirror was made of pressure-less sintering silicon carbide, light-weighted at a ratio of approximately 70%. Three side supporting invar flexure bipods were designed to minimize the assembling stress and the thermal stress. The high reflection was abtained from the optical surface cementite. The mirror weighted 7kg and the reflectivity was 97% after optical polishing. The mirror subsystem was precisely assembled under the strict technical condition. The optical test with interferometer showed that the optical surface distortion is less than 1/ 40. rms, which met the critical optical requirements for the primary mirror of the space-based astronomy telescope.

Accession Number: WOS:000459720200009

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies - Large Mirrors and Telescopes

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, Chinese Opt Soc, SPIE

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2317-0

 


 

Record 34 of 170

Title: A High-Precision Institutional Design and Mechanical Performance Analysis of the Medium-Wave Infrared Continuous Zoom

Author(s): Gao, B (Gao Bo); Chang, SS (Chang Sansan); Bian, H (Bian He); Chen, WN (Chen Weining); Zhao, Y (Zhao Yue); Mei, C (Mei Chao); Fan, EL (Fan Erlei); Zhang, GP (Zhang Gaopeng); Zhang, GD (Zhang Guangdong)

Edited by: Guina M; Gong H; Lu J; Liu D

Source: OPTICAL SENSING AND IMAGING TECHNOLOGIES AND APPLICATIONS  Book Series: Proceedings of SPIE  Volume: 10846  Article Number: UNSP 108460J  DOI: 10.1117/12.2503866  Published: 2018  

Abstract: Compared with visible light imaging systems, the infrared imaging systems have the advantages of strong fogging ability, especially in the high-altitude water vapor and haze environment. and the medium-wave infrared cooling detectors have the advantage of low cost compared to long waves. Therefore, in recent years, The demand for medium-wave infrared continuous zoom systems is increasing. In this design, based on the medium-wave infrared optical system, and summarizing the advantages and disadvantages of the previous zoom structure, a zoom mechanism in the form of a cam and guide was proposed. The cam mechanism, zoom guide mechanism, and compensation guide mechanism were described in detail in this paper. The detailed analysis of the torque demand during zooming was performed. Ansys workbench was used to analyze the main components of the zoom mechanism and the stray light of the system was proposed. The adjustment results show that this kind of structure can realize medium-wave infrared continuous zooming, and the the amount of optical axis shaking during zooming is less than 0.3mrad, which meets the design requirements, and the proposed stray light suppression method effectively suppresses the system's spurious radiation and improves the lens's imaging quality; impact and vibration simulation show that the strength and stiffness of the structure meet the requirements of the mechanical environment, and the imaging system has stable performance.

Accession Number: WOS:000455303600017

Conference Title: Conference on Optical Sensing and Imaging Technologies and Applications / International Symposium on Optoelectronic Technology and Application (OTA) / Annual Conference of the Chinese-Society-for-Optical-Engineering (CSOE)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Dept Cooperat & Coordinat Ind Acad & Res, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2335-4

 


 

Record 35 of 170

Title: Underwater 3D reconstruction based on multi-view stereo

Author(s): Gu, FF (Gu, Feifei); Zhao, J (Zhao, Juan); Xu, P (Xu, Pei); Huang, SL (Huang, Shulan); Zhang, GP (Zhang, Gaopeng); Song, Z (Song, Zhan)

Edited by: Li X; Wu L; Yao J; Yin H; Zhang R; Zhu Z

Source: OCEAN OPTICS AND INFORMATION TECHNOLOGY  Book Series: Proceedings of SPIE  Volume: 10850  Article Number: UNSP 108500F  DOI: 10.1117/12.2505296  Published: 2018  

Abstract: 3D measurement of underwater targets could recover 3D morphology of objects/scenes in water, which has extensive application prospects in the fields of submarine map drawing, underwater resource exploration, and marine archaeology et al. 3D reconstruction based on stereoscopic vision is playing a more and more important role in the field of measurement due to its incomparable advantages, such as high automation, rapid accuracy and non-contact. However, its application in underwater target detection is limited by the complex underwater environment, the absorption and scattering of light in the water and so on, which will seriously affect the quality of the image collection. In this paper, a 3D reconstruction method of underwater target based on multi view stereo vision technology was studied. A 3D profilometry system which works underwater was set up. The collection of multi-view image data is completed by a single camera and a rotating device. Firstly, camera's back projection model is used to calibrate the motion and parameters of the underwater vision system. Secondly, the underwater target is fixed on the rotating device, and a series of images under different viewpoints are collected. Then, feature detection and matching were carried out, and dense surface point clouds were generated by several steps of expansion and filtering operations. Finally, based on the generated dense point cloud, the 3D geometric mesh model of the target is obtained by using the Poisson reconstruction method. Color and texture are fused into the 3D mesh model to get the target with high fidelity.

Accession Number: WOS:000455766200014

Conference Title: Conference on Ocean Optics and Information Technology / International Symposium on Optoelectronic Technology and Application (OTA)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Dept Cooperat & Coordinat Ind Acad & Res, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2343-9

 


 

Record 36 of 170

Title: Surface passivation of 1550nm AlxInyAsSb avalanche photodiode

Author(s): Guo, CY (Guo, Chunyan); Lv, YX (Lv, Yuexi); Zheng, DN (Zheng, Da'nong); Sun, YY (Sun, Yaoyao); Jiang, Z (Jiang, Zhi); Jiang, DW (Jiang, Dongwei); Wang, GW (Wang, Guowei); Xu, YQ (Xu, Yingqiang); Wang, T (Wang, Tao); Tian, JS (Tian, Jinshou); Wu, ZX (Wu, Zhaoxin); Niu, ZC (Niu, Zhichuan)

Edited by: Zhang X; Li B; Yu C; Zhang X

Source: OPTOELECTRONIC DEVICES AND INTEGRATION VII  Book Series: Proceedings of SPIE  Volume: 10814  Article Number: 1081416  DOI: 10.1117/12.2500523  Published: 2018  

Abstract: We report three kinds of surface passivation for AlxInyAsSb APD, which are SiO2, SiO2 after sulfuration and SU8 2005 treatments. A good sidewall profile of mesas were etch by Inductively Coupled Plasma (ICP) to 2.6 mu m depth. The order of dark current for device with SU8 passivation is less than -12 under the temperature of 100K. Dark current and photocurrent increase linearly with diameter of mesa. Also, the devices with different passivation methods produce photocurrent excited by incident power. The measurements are consistent with CV modeling and electric field simulations.

Accession Number: WOS:000452640200027

Conference Title: Conference on Optoelectronic Devices and Integration VII

Conference Date: OCT 11-13, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: SPIE, Chinese Opt Soc

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Wang, Peiyun 

JVE-1196-2024 

 

Wang, Tao 

K-1644-2013 

0000-0001-5004-160X 

Wang, Guowei 

B-9468-2008 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2227-2

 


 

Record 37 of 170

Title: Deep Cross-Modal Retrieval for Remote Sensing Image and Audio

Author(s): Guo, M (Guo Mao); Yuan, Y (Yuan Yuan); Lu, XQ (Lu Xiaoqiang)

Book Group Author(s): IEEE

Source: 2018 10TH IAPR WORKSHOP ON PATTERN RECOGNITION IN REMOTE SENSING (PRRS)  Book Series: IAPR Workshop on Pattern Recognition in Remote Sensing  Published: 2018  

Abstract: Remote sensing image retrieval has many important applications in civilian and military fields, such as disaster monitoring and target detecting. However, the existing research on image retrieval, mainly including to two directions, text based and content based, cannot meet the rapid and convenient needs of some special applications and emergency scenes. Based on text, the retrieval is limited by keyboard inputting because of its lower efficiency for some urgent situations and based on content, it needs an example image as reference, which usually does not exist. Yet speech, as a direct, natural and efficient human-machine interactive way, can make up these shortcomings. Hence, a novel cross-modal retrieval method for remote sensing image and spoken audio is proposed in this paper. We first build a large-scale remote sensing image dataset with plenty of manual annotated spoken audio captions for the cross-modal retrieval task. Then a Deep Visual-Audio Network is designed to directly learn the correspondence of image and audio. And this model integrates feature extracting and multi-modal learning into the same network. Experiments on the proposed dataset verify the effectiveness of our approach and prove that it is feasible for speech-to-image retrieval.

Accession Number: WOS:000467742100039

Conference Title: 10th IAPR Workshop on Pattern Recognition in Remote Sensing (PRRS)

Conference Date: AUG 19-20, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Int Assoc Pattern Recognit

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

yuan, Yuan 

ISA-0923-2023 

 

Yuan, Yuan 

ABB-2379-2020 

 

Yuan, Yuan 

GVS-5120-2022 

 

Guo, Mao 

IUO-0969-2023 

 

 

ISSN: 2377-0198

ISBN: 978-1-5386-8479-5

 


 

Record 38 of 170

Title: LOCALITY-BASED DISCRIMINANT FEATURE SELECTION WITH TRACE RATIO

Author(s): Guo, MH (Guo, Muhan); Yang, S (Yang, Sheng); Nie, FP (Nie, Feiping); Li, XL (Li, Xuelong)

Book Group Author(s): IEEE

Source: 2018 25TH IEEE INTERNATIONAL CONFERENCE ON IMAGE PROCESSING (ICIP)  Book Series: IEEE International Conference on Image Processing ICIP  Pages: 3373-3377  Published: 2018  

Abstract: Feature selection plays an important role to select the informative and valuable features especially in high-dimensional data. However, some conventional feature selection methods select the features according to a feature subset score, which are often time-consuming, not quite robust to noise and neglecting the local data structure. To address this problem, we propose a novel feature selection approach, namely locality-based discriminant feature selection with trace ratio (LDFS), which can perform local data structure learning, and feature selection simultaneously. Furthermore, the proposed approach is robust to data noise and can pick out genuinely valuable features. In the end, experimental results on synthetic and real-world datasets demonstrate the effectiveness of the proposed method.

Accession Number: WOS:000455181503098

Conference Title: 25th IEEE International Conference on Image Processing (ICIP)

Conference Date: OCT 07-10, 2018

Conference Location: Athens, GREECE

Conference Sponsors: Inst Elect & Electron Engneers, IEEE Signal Processing Soc

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Xuelong 

Z-3785-2019 

 

Li, Xuelong 

ABF-3381-2020 

 

Nie, Feiping 

B-3039-2012 

 

li, xiang 

GWM-6319-2022 

 

Nie, Feiping 

 

0000-0002-0871-6519 

 

ISSN: 1522-4880

ISBN: 978-1-4799-7061-2

 


 

Record 39 of 170

Title: SELF-WEIGHTED ADAPTIVE LOCALITY DISCRIMINANT ANALYSIS

Author(s): Guo, MH (Guo, Muhan); Nie, FP (Nie, Feiping); Li, XL (Li, Xuelong)

Book Group Author(s): IEEE

Source: 2018 25TH IEEE INTERNATIONAL CONFERENCE ON IMAGE PROCESSING (ICIP)  Book Series: IEEE International Conference on Image Processing ICIP  Pages: 3378-3382  Published: 2018  

Abstract: The linear discriminant analysis (LDA) is a popular technique for dimensionality reduction, nevertheless, when the input data lie in a complicated geometry distribution, LDA tends to obtain undesired results since it neglects the local structure of data. Though plenty of previous works devote to capturing the local structure, they have the same weakness that the neighbors found in the original data space may be not reliable, especially when noise is large. In this paper, we propose a novel supervised dimensionality reduction approach, Self-weighted Adaptive Locality Discriminant Analysis (SALDA), which aims to find a representative low-dimensional subspace of data. Compared with LDA and its variants, SALDA explores the neighborhood relationship of data points in the desired subspace effectively. Besides, the weights between within-class data points are learned automatically without setting any additional parameter. Extensive experiments on synthetic and real-world datasets show the effectiveness of the proposed method.

Accession Number: WOS:000455181503099

Conference Title: 25th IEEE International Conference on Image Processing (ICIP)

Conference Date: OCT 07-10, 2018

Conference Location: Athens, GREECE

Conference Sponsors: Inst Elect & Electron Engneers, IEEE Signal Processing Soc

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Xuelong 

Z-3785-2019 

 

Li, Xuelong 

ABF-3381-2020 

 

Nie, Feiping 

B-3039-2012 

 

li, xiang 

GWM-6319-2022 

 

Nie, Feiping 

 

0000-0002-0871-6519 

 

ISSN: 1522-4880

ISBN: 978-1-4799-7061-2

 


 

Record 40 of 170

Title: Embedding Fuzzy K-Means with Nonnegative Spectral Clustering via Incorporating Side Information

Author(s): Guo, MH (Guo, Muhan); Zhang, R (Zhang, Rui); Nie, FP (Nie, Feiping); Li, XL (Li, Xuelong)

Edited by: Cuzzocrea A; Allan J; Paton N; Srivastava D; Agrawal R; Broder A; Zaki M; Candan S; Labrinidis A; Schuster A; Wang H

Source: CIKM'18: PROCEEDINGS OF THE 27TH ACM INTERNATIONAL CONFERENCE ON INFORMATION AND KNOWLEDGE MANAGEMENT  Pages: 1567-1570  DOI: 10.1145/3269206.3269237  Published: 2018  

Abstract: As one of the most widely used clustering techniques, the fuzzy K-Means (also called FKM or FCM) assigns every data point to each cluster with a certain degree of membership. However, conventional FKM approach relies on the square data fitting term which is not robust to data outliers and ignores the prior information, which leads to unsatisfactory clustering results. In this paper, we present a novel and robust fuzzy K-Means clustering algorithm, namely Embedding Fuzzy K-Means with Nonnegative Spectral Clustering via Incorporating Side Information. The proposed method combines fuzzy K-Means with nonnegative spectral clustering into a unified model, and further takes the advantage of the prior knowledge of data pairs such that the quality of similarity graph is enhanced and the clustering performance is effectively improved. Besides, the l(2,1)-norm loss function is adopted in the objective function, which achieves better robustness to outliers. Last, experimental results on benchmark datasets verify the effectiveness and superiority of the proposed clustering method.

Accession Number: WOS:000455712300172

Conference Title: 27th ACM International Conference on Information and Knowledge Management (CIKM)

Conference Date: OCT 22-26, 2018

Conference Location: Torino, ITALY

Conference Sponsors: Assoc Comp Machinery, Assoc Comp Machinery Special Interest Grp Informat Retrieval, Assoc Comp Machinery SIGWEB, Univ Trieste

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Xuelong 

Z-3785-2019 

 

Nie, Feiping 

B-3039-2012 

 

Li, Xuelong 

ABF-3381-2020 

 

li, xiang 

GWM-6319-2022 

 

Nie, Feiping 

 

0000-0002-0871-6519 

Zhang, Rui 

U-4639-2017 

0000-0001-9418-0863 

 

ISBN: 978-1-4503-6014-2

 


 

Record 41 of 170

Title: SalNet: Edge Constraint Based End-to-End Model for Salient Object Detection

Author(s): Han, L (Han, Le); Li, XL (Li, Xuelong); Dong, YS (Dong, Yongsheng)

Edited by: Lai JH; Liu CL; Chen X; Zhou J; Tan T; Zheng N; Zha H

Source: PATTERN RECOGNITION AND COMPUTER VISION (PRCV 2018), PT IV  Book Series: Lecture Notes in Computer Science  Volume: 11259  Pages: 186-198  DOI: 10.1007/978-3-030-03341-5_16  Published: 2018  

Abstract: Salient object detection is a fundamental task in computer vision and pattern recognition. And it has been investigated by many researchers in many fields for a long time. Numerous salient object detection models based on deep learning have been designed in recent years. However, the saliency maps extracted by most of the existing models are blurry or have irregular edges. To alleviate these problems, we propose a novel approach named SalNet to detect the salient objects accurately in this paper. The architecture of the SalNet is an U-Net which can combine the features of the shallow and deep layers. Moreover, a new objective function based on the image convolution is further proposed to refine the edges of saliency maps by using a constraint on the L1 distance between edge information of the ground-truth and the saliency maps. Finally, we evaluate our proposed SalNet on benchmark datasets and compare it with the state-of-the-art algorithms. Experimental results demonstrate that the SalNet is effective and outperforms several representative methods in salient object detection task.

Accession Number: WOS:000846893700016

Conference Title: 1st Chinese Conference on Pattern Recognition and Computer Vision (PRCV)

Conference Date: NOV 23-26, 2018

Conference Location: Guangzhou, PEOPLES R CHINA

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Xuelong 

Z-3785-2019 

 

 

ISSN: 0302-9743

eISSN: 1611-3349

ISBN: 978-3-030-03341-5; 978-3-030-03340-8

 


 

Record 42 of 170

Title: Sea Trial of Flow Noise of Fiber Laser Hydrophone Array

Author(s): Hao, GY (Hao Ge-yang); Li, Q (Li Qi); Liu, B (Liu Bo); Liu, W (Liu Wei); Wu, GJ (Wu Guo-jun)

Edited by: Jiang S; Wang L; Liu Z; Shi W; Zhou P

Source: ADVANCED LASER TECHNOLOGY AND APPLICATIONS  Book Series: Proceedings of SPIE  Volume: 10844  Article Number: UNSP 108440Z  DOI: 10.1117/12.2505565  Published: 2018  

Abstract: Towed linear array array based on fiber laser hydrophone which had much research potentiality owing to its higher acoustic pressure sensitivity, smaller size and lower difficulty of multiplexing. Flow noise is one of the main sources of noise in the towed linear array system. It will compress the dynamic range of fiber laser hydrophone and reduce the detection ability to small signal. In this paper, the structure of a 4 channel fiber laser hydrophone towed linear array was presented, and the data of sea trial of flow noise was analyzed. The results shows that the influence of flow noise mainly concentrate on the low frequency band which under 500Hz, and the background noise level has increased nearly 70-80dB when the array is towed at the speed of 3 kn.

Accession Number: WOS:000455307100034

Conference Title: Conference on Advanced Laser Technology and Applications / International Symposium on Optoelectronic Technology and Application (OTA) / Annual Conference of the Chinese-Society-for-Optical-Engineering (CSOE)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Acad & Res, Dept Cooperat & Coordinat Ind, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2331-6

 


 

Record 43 of 170

Title: SPECTRAL-SPATIAL HYPERSPECTRAL IMAGE CLASSIFICATION VIA LOCALITY AND STRUCTURE CONSTRAINED LOW-RANK REPRESENTATION

Author(s): He, X (He, Xiang); Wang, Q (Wang, Qi); Li, XL (Li, Xuelong)

Book Group Author(s): IEEE

Source: IGARSS 2018 - 2018 IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM  Book Series: IEEE International Symposium on Geoscience and Remote Sensing IGARSS  Pages: 5744-5747  Published: 2018  

Abstract: Low-rank representation (LRR) has been applied widely in most fields due to its considerable ability to explore the low-dimensional subspace embedding in high-dimensional data. However, there are still some problems that LRR can't effectively exploit the local structure and the representation for the given data is not discriminative enough. To tackle the above issues, we propose a novel locality and structure constrained low-rank representation (LSLRR) for hyperspectral image (HSI) classification. First, a distance metrics, which combines spectral and spatial similarity, is proposed to constrain the local structure. This makes two pixels in HSI with small distance have high similarity. Second, we exploit the classwise block-diagonal structure for the training data to learn the more discriminative representation for the testing data. And the experimental results verify the effectiveness and superiority of LSLRR comparing with other state-of-the-art methods.

Accession Number: WOS:000451039805144

Conference Title: 38th IEEE International Geoscience and Remote Sensing Symposium (IGARSS)

Conference Date: JUL 22-27, 2018

Conference Location: Valencia, SPAIN

Conference Sponsors: Inst Elect & Elect Engineers, Inst Elect & Elect Engineers Geoscience & Remote Sensing Soc, European Space Agcy

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

He, Xiangjian 

CAA-1461-2022 

 

Yan, Jing 

JFA-6705-2023 

 

Li, Xuelong 

Z-3785-2019 

 

li, xiang 

GWM-6319-2022 

 

Li, Xuelong 

ABF-3381-2020 

 

 

ISSN: 2153-6996

ISBN: 978-1-5386-7150-4

 


 

Record 44 of 170

Title: High Power Multiple Wavelength Diode Laser Stack for DPSSL Application without Temperature Control

Author(s): Hou, D (Hou, Dong); Yin, X (Yin, Xia); Wang, JW (Wang, Jingwei); Chen, S (Chen, Shi); Zhan, Y (Zhan, Yun); Li, XN (Li, Xiaoning); Fan, YM (Fan, Yingmin); Liu, XS (Liu, Xingsheng)

Edited by: Glebov AL; Leisher PO

Source: COMPONENTS AND PACKAGING FOR LASER SYSTEMS IV  Book Series: Proceedings of SPIE  Volume: 10513  Article Number: UNSP 1051311  DOI: 10.1117/12.2291169  Published: 2018  

Abstract: High power diode laser stack is widely used in pumping solid-state laser for years. Normally an integrated temperature control module is required for stabilizing the output power of solid-state laser, as the output power of the solid-state laser highly depends on the emission wavelength and the wavelength shift of diode lasers according to the temperature changes. However the temperature control module is inconvenient for this application, due to its large dimension, high electric power consumption and extra adding a complicated controlling system. Furthermore, it takes dozens of seconds to stabilize the output power when the laser system is turned on. In this work, a compact hard soldered high power conduction cooled diode laser stack with multiple wavelengths is developed for stabilizing the output power of solid-state laser in a certain temperature range. The stack consists of 5 laser bars with the pitch of 0.43 mm. The peak output power of each bar in the diode laser stack reaches as much as 557 W and the combined lasing wavelength spectrum profile spans 15 nm. The solid-state laser, structured with multiple wavelength diode laser stacks, allows the ambient temperature change of 65 degrees C without suddenly degrading the optical performance.

Accession Number: WOS:000432464600023

Conference Title: Conference on Components and Packaging for Laser Systems IV

Conference Date: JAN 30-FEB 01, 2018

Conference Location: San Francisco, CA

Conference Sponsors: SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

YU, Wei 

HTP-9667-2023 

 

jin, li 

IWU-4648-2023 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1512-0; 978-1-5106-1511-3

 


 

Record 45 of 170

Title: Supporting Structure Design between Primary and Secondary Mirrors in a Long Focal Length Space Optical Remote Sensor

Author(s): Hu, B (Hu, Bin); Wu, MY (Wu, Mengyuan); Ye, J (Ye, Jing); Li, Y (Li, Yan); Li, XY (Li, Xuyang)

Edited by: Ma X; Fan B; Wan Y; Russell A; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES: LARGE MIRRORS AND TELESCOPES  Book Series: Proceedings of SPIE  Volume: 10837  Article Number: UNSP 1083703  DOI: 10.1117/12.2504859  Published: 2018  

Abstract: To ensure the dimensional stability of the opto-mechnical structure of the space optical remote sensor is an important prerequisite for the acquisition of high quality images. The change of the relative position between the primary and secondary mirrors has a great influence on the imaging quality of the long focal length optical remote sensor. Several common forms of supporting structure between the primary and secondary mirrors and the secondary mirror support of lightweight, high stiffness have been analyzed. This paper has designed a baffle tube between primary and secondary mirrors of high modulus carbon fiber M55J/cyanate ester material, carbon fiber composite main body with titanium alloy inserts integral the secondary mirror supporting structure. Through static and dynamic analysis, it is proved that the designed optical remote sensor has good structural stability and dynamic characteristics, and meets the requirements of engineering application.

Accession Number: WOS:000459720200002

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies - Large Mirrors and Telescopes

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, Chinese Opt Soc, SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Ye, Jing 

HZL-8945-2023 

 

zhang, xiang 

JJD-7003-2023 

 

Hu, Bin 

ACD-0145-2022 

0000-0003-3514-5413 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2317-0

 


 

Record 46 of 170

Title: High Precision Measurement and 3-D Reconstruction of Non-Cooperative Spacecraft Based on Binocular Vision

Author(s): Hu, GL (Hu, Guoliang); Zhou, ZF (Zhou, Zuofeng); Cao, JZ (Cao, Jianzhong); Huang, HM (Huang, Huimin)

Edited by: Jiang X; Hwang JN

Source: TENTH INTERNATIONAL CONFERENCE ON DIGITAL IMAGE PROCESSING (ICDIP 2018)  Book Series: Proceedings of SPIE  Volume: 10806  Article Number: UNSP 108063E  DOI: 10.1117/12.2503049  Published: 2018  

Abstract: In this paper, we propose an automatic method for high precision measurement and 3D reconstruction of non-cooperative spacecraft based on binocular vision. The Zhengyou Zhang's calibration method was implemented to calibrate the camera's internal and external parameters; the 8-point algorithm was adopted to compute the fundamental and essential matrix between the cameras; we got the relative position of binocular camera by the method of the SVD of essential matrix; a stereo matching algorithm depending on the Semi-Global Matching was adopted for disparity map. Subsequently, the cloud information of world points was calculated through least square method. In our experiment, a complex outdoor scene was used. We made a satellite model which has the same size of the real one. To get the accurate position and angle of the spacecraft, the ellipse marks on the spacecraft was exacted effectively under three constraints. The experimental results show that the spacecraft model can be reconstructed accurately by our method. The method contributes the error rate of 1% for the test length and 3% for the test angle in 1 meter.

Accession Number: WOS:000452819600121

Conference Title: 10th International Conference on Digital Image Processing (ICDIP)

Conference Date: MAY 11-14, 2018

Conference Location: E China Normal Univ, Shanghai, PEOPLES R CHINA

Conference Sponsors: Shanghai Key Lab Multidimens Informat Proc, Int Assoc Comp Sci & Informat Technol

Conference Host: E China Normal Univ

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2200-5

 


 

Record 47 of 170

Title: Modeling and date analysis of the error propagation of double-theodolite wind data

Author(s): Huang, H (Huang Hua); Yang, XJ (Yang Xiaojun); Guo, G (Guo Gao)

Edited by: Guina M; Gong H; Lu J; Liu D

Source: OPTICAL SENSING AND IMAGING TECHNOLOGIES AND APPLICATIONS  Book Series: Proceedings of SPIE  Volume: 10846  Article Number: UNSP 108460X  DOI: 10.1117/12.2504192  Published: 2018  

Abstract: Aimed at wind measurement requirement of pilot balloon observation, the double-theodolite base-line method will be discussed mainly. Then based on GJB6076-2007 and GJB 6556.3-2008, the formulas of wind vector were given and the error propagation model of double-theodolite wind measurement was founded. At last, the system and random errors of some wind measurement data were calculated and analyzed. The results showed that, the error of the double-theodolite method was mainly caused by the elevation and the azimuth angles, including measurement error and tracking error. It increases rapidly with time and height increase, and can be remarkably reduced if the error of balloon tracking is removed.

Accession Number: WOS:000455303600031

Conference Title: Conference on Optical Sensing and Imaging Technologies and Applications / International Symposium on Optoelectronic Technology and Application (OTA) / Annual Conference of the Chinese-Society-for-Optical-Engineering (CSOE)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Dept Cooperat & Coordinat Ind Acad & Res, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2335-4

 


 

Record 48 of 170

Title: Target Measurement in Elliptical Orbit Using Generalized Voxel Coloring

Author(s): Huang, HM (Huang, Huimin); Zhou, ZF (Zhou, Zuofeng); Guo, HN (Guo, Huinan); Cao, JZ (Cao, Jianzhong)

Edited by: Jiang X; Hwang JN

Source: TENTH INTERNATIONAL CONFERENCE ON DIGITAL IMAGE PROCESSING (ICDIP 2018)  Book Series: Proceedings of SPIE  Volume: 10806  Article Number: UNSP 108065T  DOI: 10.1117/12.2502875  Published: 2018  

Abstract: Measurement of 3D scene from image sequences is necessary for many computer vision applications. In this paper, we identify the volumetric scene reconstruction as a critical issue for target measurement and use the statistical method to estimate the size of the reconstructed target. The proposed approach unifies the view volume in volumetric scene reconstruction while we only know the location information of the camera relative to the target in elliptical orbit. Experimental results on elliptical orbit with 200 meters long axis and 100 meters short axis illustrate that the average error is about 44 millimeters, which meets the accuracy requirement of general measurement.

Accession Number: WOS:000452819600207

Conference Title: 10th International Conference on Digital Image Processing (ICDIP)

Conference Date: MAY 11-14, 2018

Conference Location: E China Normal Univ, Shanghai, PEOPLES R CHINA

Conference Sponsors: Shanghai Key Lab Multidimens Informat Proc, Int Assoc Comp Sci & Informat Technol

Conference Host: E China Normal Univ

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2200-5

 


 

Record 49 of 170

Title: Broadband antireflection coating for the near-infrared InAs/GaSb Type-II superlattices photodetectors by lift-off process

Author(s): Jia, QX (Jia, Qing-xuan); Guo, CY (Guo, Chun-yan); Sun, YY (Sun, Yao-yao); Yang, CA (Yang, Cheng-ao); Lv, YX (Lv, Yue-xi); Jiang, Z (Jiang, Zhi); Zheng, DN (Zheng, Da-Nong); Han, X (Han, Xi); Jiang, DW (Jiang, Dong-wei); Wang, GW (Wang, Guo-wei); Niu, ZC (Niu, Zhi-chuan)

Edited by: Zhang C; Zhang XC; Tani M

Source: INFRARED, MILLIMETER-WAVE, AND TERAHERTZ TECHNOLOGIES V  Book Series: Proceedings of SPIE  Volume: 10826  Article Number: UNSP 108261Z  DOI: 10.1117/12.2509181  Published: 2018  

Abstract: Near-infrared InAs/GaSb Type-II superlattices is widely used in biomimetics, sensing, color-imaging technology and other applications. An antireflection coating(AR coating) can help it perform better, making the infrared photodetector a higher responstivity and also a higher quantum efficiency. We produce a broadband AR coating by plasma-enhanced chemical vapor deposition(PECVD) then using the lift-off technology making no damage without any change in the usual Infrared detector process flow, a 260 nm SiO2 AR coating is transform onto the surface of the infrared photodetector. After using the AR coating, the antireflection can provide up to 40% light gain, while the average reflectivity of the surface of InAs/GaSb type-II superlattice is decreased from 33% to 14%. The responsitivity is increased obviously.

Accession Number: WOS:000458756200053

Conference Title: Conference on Infrared, Millimeter-Wave, and Terahertz Technologies V

Conference Date: OCT 11-13, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Jiang, Zhijun 

G-4302-2018 

 

Wang, Guowei 

B-9468-2008 

 

Yang, Chengao 

AAX-6086-2020 

0000-0003-4426-6807 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2251-7; 978-1-5106-2250-0

 


 

Record 50 of 170

Title: Analysis of the Infrared Detection System Operating Range Based on Polarization Degree

Author(s): Jiang, K (Jiang Kai); Liu, W (Liu Wen); Liu, K (Liu Kai); Duan, J (Duan Jing); Yan, PP (Yan Pei-pei); Shan, QS (Shan Qiu-sha)

Edited by: Guofan J; Guangjun Z

Source: FOURTH SEMINAR ON NOVEL OPTOELECTRONIC DETECTION TECHNOLOGY AND APPLICATION  Book Series: Proceedings of SPIE  Volume: 10697  Article Number: UNSP 1069729  DOI: 10.1117/12.2315429  Published: 2018  

Abstract: Infrared polarization detection technology has unique advantages in the field of target detection and identification because of using the polarization information of radiation. The mechanism of infrared polarization is introduced. Comparing with traditional infrared detection distance model, infrared detection operating range and Signal to Noise Ratio (SNR) model is built according to the polarization degree and noise. The influence of polarization degree on the SNR of infrared system is analyzed. At last, the basic condition of polarization detection SNR better than traditional infrared detection SNR is obtained.

Accession Number: WOS:000435407700075

Conference Title: 4th Seminar on Novel Optoelectronic Detection Technology and Application

Conference Date: OCT 24-26, 2017

Conference Location: Nanjing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, Chinese Acad Engn, Div Informat & Elect Engn, Sci & Technol Low Light Level Night Vis Lab, N Night Vis Technol Co Ltd Corp

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1948-7

 


 

Record 51 of 170

Title: An optimized SIFT algorithm based on color space normalization

Author(s): Jiang, TC (Jiang, Tuochi); Wen, DS (Wen, Desheng); Song, ZX (Song, Zongxi); Gao, W (Gao, Wei); Shen, C (Shen, Chao); Wang, F (Wang, Feng)

Edited by: Jiang X; Hwang JN

Source: TENTH INTERNATIONAL CONFERENCE ON DIGITAL IMAGE PROCESSING (ICDIP 2018)  Book Series: Proceedings of SPIE  Volume: 10806  Article Number: UNSP 1080608  DOI: 10.1117/12.2503039  Published: 2018  

Abstract: The Scale Invariant Feature Transform (SIFT) algorithm has been widely used for its excellent stability in rotation, scale and affine transformation. The local SIFT descriptor has excellent accuracy and robustness. However, it is only based on gray scale ignoring the overall color information of the image resulting in poorly recognizing to the images with rich color details. We proposed an optimized method of SIFT algorithm in this paper which shows superior performance in feature extraction and matching. RGB color space normalization is used to eliminate the effects of illumination position and intensity invariant on the image. Then we proposed a novel similarity retrieval method, which used K nearest neighbor search strategy by constructing K-D tree (k-dimensional tree), to process the key points extracted from the normalized color space. The key points of RGB space are filtered and combined efficiently. Experimental results demonstrate that the performance of the optimized algorithm is obviously better than the original SIFT algorithm in matching. The average matching accuracy of test samples is 87.05%, an average increase of 18.21%.

Accession Number: WOS:000452819600007

Conference Title: 10th International Conference on Digital Image Processing (ICDIP)

Conference Date: MAY 11-14, 2018

Conference Location: E China Normal Univ, Shanghai, PEOPLES R CHINA

Conference Sponsors: Shanghai Key Lab Multidimens Informat Proc, Int Assoc Comp Sci & Informat Technol

Conference Host: E China Normal Univ

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2200-5

 


 

Record 52 of 170

Title: High-accuracy Consensus Algorithm for Second-Order Multi-Agent Systems

Author(s): Jing, F (Jing, Feng); Han, JF (Han, Junfeng); Xie, ML (Xie, Meilin); Liu, P (Liu, Peng); Feng, XB (Feng, Xubin)

Edited by: Peng K; Pan J; Chu J

Source: YOUNG SCIENTISTS FORUM 2017  Book Series: Proceedings of SPIE  Volume: 10710  Article Number: 1071010  DOI: 10.1117/12.2315666  Published: 2018  

Abstract: Consensus problem is a hot area of multi-agent cooperative control, and has produced many research results. Design consensus algorithm is the focus of multi-agent problem research. However, for high precision situations, multi-agent cooperative control needs more effective consensus algorithm. Since most of the dynamic models in reality are second-order systems, this paper provides a consensus algorithm of second-order multi-agent system with integral, and compares it with the traditional consensus algorithms. The algorithm has higher response rate and consensus accuracy. In order to illustrate the effectiveness of the proposed algorithm, a set of simulation results is provided.

Accession Number: WOS:000451888100035

Conference Title: Young Scientists Forum

Conference Date: NOV 24-26, 2017

Conference Location: Shanghai, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Engn, Div Informat & Elect Engn, Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1978-4

 


 

Record 53 of 170

Title: Application and Improvement of Heuristic Function in A* Algorithm

Author(s): Jing, XR (Jing, Xurui); Yang, XJ (Yang, Xiaojun)

Edited by: Chen X; Zhao QC

Source: 2018 37TH CHINESE CONTROL CONFERENCE (CCC)  Book Series: Chinese Control Conference  Pages: 2191-2194  Published: 2018  

Abstract: The A* algorithm is widely used in path planning due to its simplicity and effectiveness. In this paper, firstly, aiming at the difficulty in determining the heuristic function in the A* algorithm, performance comparison is made between the four heuristic functions such as Manhattan distance, Euclidean distance, Chebyshev distance and Diagonal distance. In the path planning, through these, we obtain the degree of influence of different heuristic functions on A* algorithm efficiency. At the same time, an improved heuristic function is proposed to select the cost coefficient of the Manhattan distance with a weighted measure. By comparing simulation results, the improved A* algorithm has some optimization in path planning with respect to search time, search range, path length and so on, and it's certain reference to the heuristic function design of A* algorithm.

Accession Number: WOS:000468622102043

Conference Title: 37th Chinese Control Conference (CCC)

Conference Date: JUL 25-27, 2018

Conference Location: Wuhan, PEOPLES R CHINA

Conference Sponsors: Chinese Assoc Automat, Tech Comm Control Theory, Syst Engn Soc China, China Univ Geosciences, Chinese Acad Sci, Acad Math & Syst Sci, China Soc Ind & Appl Math, Huazhong Univ Sci & Technol, Wuhan Univ Sci & Technol, Hubei Assoc Automat, Asian Control Assoc, IEEE Control Syst Soc, Inst Control Robot & Syst, Soc Instrument & Control Engineers

ISSN: 2161-2927

ISBN: 978-9-8815-6395-8

 


 

Record 54 of 170

Title: Figure-eight Laser with an Integrated Nonlinear Waveguide: All-optical Square-wave Generation

Author(s): Kovalev, AV (Kovalev, Anton V.); Aadhi, A (Aadhi, A.); Kues, M (Kues, Michael); Roztocki, P (Roztocki, Piotr); Reimer, C (Reimer, Christian); Zhang, Y (Zhang, Young); Wang, T (Wang, Tao); Matuhina, A (Matuhina, Anastasia); Little, BE (Little, Brent E.); Chu, ST (Chu, Sai T.); Moss, DJ (Moss, David J.); Wang, ZM (Wang, Zhiming); Viktorov, EA (Viktorov, Evgeny A.); Morandotti, R (Morandotti, Roberto)

Book Group Author(s): IEEE

Source: 2018 INTERNATIONAL CONFERENCE LASER OPTICS (ICLO 2018)  Pages: 445-445  Published: 2018  

Abstract: We characterize the generation of square waves from a figure-eight laser that incorporates an on-chip nonlinear waveguide. By varying the gain parameters, we show multiple dynamical regimes of operation, hysteretic behavior, and the bistability of CW operation leading to square wave pulses.

Accession Number: WOS:000451036000445

Conference Title: International Conference on Laser Optics (ICLO)

Conference Date: JUN 04-08, 2018

Conference Location: St Petersburg, RUSSIA

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Kovalev, Anton 

F-1897-2014 

0000-0001-7848-8526 

Aadhi, A 

JTD-3050-2023 

0000-0001-6609-1855 

Matuhina, Anastasia 

U-2027-2019 

 

A, A 

JXO-5164-2024 

 

Kues, Michael 

HPE-7088-2023 

0000-0001-5323-3850 

Morandotti, Roberto 

AAU-4702-2020 

 

Viktorov, Evgeny 

AAH-3699-2019 

 

Morandotti, Roberto 

U-6712-2019 

0000-0001-7717-1519 

Chu, Sai T 

D-3312-2014 

0000-0001-8263-8507 

Matuhina, Anastasia 

 

0000-0002-0512-5748 

 

ISBN: 978-1-5386-3612-1

 


 

Record 55 of 170

Title: On-chip entangled D-level photon states - scalable generation and coherent processing

Author(s): Kues, M (Kues, M.); Reimer, C (Reimer, C.); Roztocki, P (Roztocki, P.); Cortés, LR (Cortes, L. Romero); Sciara, S (Sciara, S.); Wetzel, B (Wetzel, B.); Zhang, Y (Zhang, Y.); Cino, A (Cino, A.); Chu, ST (Chu, S. T.); Little, BE (Little, B. E.); Moss, DJ (Moss, D. J.); Caspani, L (Caspani, L.); Azaña, J (Azana, J.); Morandotti, R (Morandotti, R.)

Book Group Author(s): IEEE

Source: 2018 CONFERENCE ON LASERS AND ELECTRO-OPTICS (CLEO)  Book Series: Conference on Lasers and Electro-Optics  Published: 2018  

Abstract: Exploiting a micro-cavity-based quantum frequency comb, we demonstrate the on-chip generation of high-dimensional entangled quantum states with a Hilbert-space dimensionality larger than 100, and introduce a coherent control approach relying on standard telecommunications components.

Accession Number: WOS:000526031001127

Conference Title: Conference on Lasers and Electro-Optics (CLEO)

Conference Date: MAY 13-18, 2018

Conference Location: San Jose, CA

Conference Sponsors: IEEE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Wetzel, Benjamin 

E-9386-2016 

0000-0002-2691-0307 

Cortés, Luis Romero 

H-6185-2018 

0000-0002-9534-4476 

Chu, Sai T 

D-3312-2014 

0000-0001-8263-8507 

Morandotti, Roberto 

AAU-4702-2020 

 

Morandotti, Roberto 

J-7954-2013 

0000-0001-7717-1519 

Cino, Alfonso Carmelo 

 

0000-0002-8116-3172 

Sciara, Stefania 

 

0000-0002-4740-9343 

Kues, Michael 

 

0000-0001-5323-3850 

Caspani, Lucia 

C-3777-2009 

0000-0003-2711-0448 

 

ISSN: 2160-9020

ISBN: 978-1-9435-8042-2

 


 

Record 56 of 170

Title: Accuracy Analysis for Target Location with no Control Point for the Camera loaded on Space-based Platform

Author(s): Kui, S (Kui, Shi); Wei, Z (Wei, Zhang); Zhang, GD (Zhang Guangdong); Peng, JW (Peng Jianwei); Bo, G (Bo, Gao)

Edited by: Guina M; Gong H; Lu J; Liu D

Source: OPTICAL SENSING AND IMAGING TECHNOLOGIES AND APPLICATIONS  Book Series: Proceedings of SPIE  Volume: 10846  Article Number: UNSP 1084603  DOI: 10.1117/12.2502100  Published: 2018  

Abstract: To a high resolution digital camera which works in visible light and is on the space-based platform flying in 500 km orbit, analyzed the principle of image acquisition, established the collinear equation and target location model from the system measured the pose of camera and single image without control points, and researched the method to calculate the geographic coordinate of target point. Analyzed the consisted factors of target location accuracy, and generated the formula for calculating target location accuracy based on the accuracy theory. For the cameras working in this mode, gave the elements of orientation and the parameters of camera, then obtained the target location accuracy is 16.1 meter through the simulation analysis to the model. The analysis to the target location accuracy provides a theoretical base for the practical use of the space camera. Analyzed the impact of the camera parameters and operation mode on the location accuracy, and put forward some measures to improve the target location accuracy.

Accession Number: WOS:000455303600002

Conference Title: Conference on Optical Sensing and Imaging Technologies and Applications / International Symposium on Optoelectronic Technology and Application (OTA) / Annual Conference of the Chinese-Society-for-Optical-Engineering (CSOE)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Dept Cooperat & Coordinat Ind Acad & Res, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Wei, Zhang 

JSK-6014-2023 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2335-4

 


 

Record 57 of 170

Title: Simultaneous optical trapping and imaging in axial plane

Author(s): Lei, M (Lei, Ming); Liang, YS (Liang, Yansheng); Yao, BL (Yao, Baoli)

Edited by: Omatsu T; Ishihara H; Sasaki K

Source: OPTICAL MANIPULATION CONFERENCE  Book Series: Proceedings of SPIE  Volume: 10712  Article Number: UNSP 107120B  DOI: 10.1117/12.2309617  Published: 2018  

Abstract: The exploitation of single objective lens for both trapping and imaging in standard optical trapping system confines the trapping and imaging planes to the focal plane, which hinders the development of optical trapping along axial direction. To break the limitation, we develop an axial-plane optical trapping and imaging setup and demonstrated simultaneous trapping and imaging in axial plane. A modified Gerchberg-Saxton iterative algorithm based on axial-plane Fourier transform is proposed for direct shaping of novel optical traps in axial plane. With the combination of the proposed algorithm and the axial-plane imaging technique, axial-plane holographic optical tweezers is demonstrated and parallel calibration of multiple traps along axial direction is realized. The proposed technique also provides direct visualization of the trapped particles for study on trap performance of various optical fields, including Bessel beams, Airy beams and snake beams.

Accession Number: WOS:000436399200009

Conference Title: Optical Manipulation Conference

Conference Date: APR 25-27, 2018

Conference Location: Yokohama, JAPAN

Conference Sponsors: SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Yao, Baoli 

AAB-4606-2021 

 

Lei, Ming 

JAD-1050-2023 

 

Liang, Yansheng 

AAE-4101-2022 

0000-0002-3561-1317 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1982-1

 


 

Record 58 of 170

Title: Edge effect modeling of small tool polishing in planetary movement

Author(s): Li, QX (Li, Qi-xin); Ma, Z (Ma, Zhen); Jiang, B (Jiang, Bo); Yao, YS (Yao, Yong-sheng)

Edited by: Peng K; Pan J; Chu J

Source: YOUNG SCIENTISTS FORUM 2017  Book Series: Proceedings of SPIE  Volume: 10710  Article Number: 1071030  DOI: 10.1117/12.2317560  Published: 2018  

Abstract: As one of the most challenging problems in Computer Controlled Optical Surfacing(CCOS), the edge effect greatly affects the polishing accuracy and efficiency. CCOS rely on stable tool influence function(TIF), however, at the edge of the mirror surface, with the grinding head out of the mirror, the contact area and pressure distribution changes, which resulting in a non-linear change of TIF, and leads to tilting or sagging at the edge of the mirror. In order reduce the adverse effects and improve the polishing accuracy and efficiency. In this paper, we used the finite element simulation to analyze the pressure distribution at the mirror edge and combined with the improved traditional method to establish a new model. The new method fully considered the non-uniformity of pressure distribution. After modeling the TIFs in different locations, the description and prediction of the edge effects are realized, which has a positive significance on the control and suppression of edge effects.

Accession Number: WOS:000451888100103

Conference Title: Young Scientists Forum

Conference Date: NOV 24-26, 2017

Conference Location: Shanghai, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Engn, Div Informat & Elect Engn, Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1978-4

 


 

Record 59 of 170

Title: Engineering the on-axis intensity of Bessel beam by a feedback tuning loop

Author(s): Li, RZ (Li, Runze); Yu, XH (Yu, Xianghua); Yang, YL (Yang, Yanlong); Peng, T (Peng, Tong); Yao, BL (Yao, Baoli); Zhang, CM (Zhang, Chunmin); Ye, T (Ye, Tong)

Edited by: Brown TG; Cogswell CJ; Wilson T

Source: THREE-DIMENSIONAL AND MULTIDIMENSIONAL MICROSCOPY: IMAGE ACQUISITION AND PROCESSING XXV  Book Series: Proceedings of SPIE  Volume: 10499  Article Number: UNSP 1049921  DOI: 10.1117/12.2290358  Published: 2018  

Abstract: The Bessel beam belongs to a typical class of non-diffractive optical fields that are characterized by their invariant focal profiles along the propagation direction. However, ideal Bessel beams only rigorously exist in theory; Bessel beams generated in the lab are quasi-Bessel beams with finite focal extensions and varying intensity profiles along the propagation axis. The ability to engineer the on-axis intensity profile to the desired shape is essential for many applications. Here we demonstrate an iterative optimization-based approach to engineering the on-axis intensity of Bessel beams. The genetic algorithm is used to demonstrate this approach Starting with a traditional axicon phase mask, in the design process, the computed on-axis beam profile is fed into a feedback tuning loop of an iterative optimization process, which searches for an optimal radial phase distribution that can generate a generalized Bessel beam with the desired on axis intensity profile. The experimental implementation involves a fine-tuning process that adjusts the originally targeted profile so that the optimization process can optimize the phase mask to yield an improved on-axis profile. Our proposed method has been demonstrated in engineering several zeroth-order Bessel beams with customized on-axis profiles. High accuracy and high energy throughput merit its use in many applications.

Accession Number: WOS:000432542000029

Conference Title: Conference on Three-Dimensional and Multidimensional Microscopy: Image Acquisition and Processing XXV

Conference Date: JAN 29-31, 2018

Conference Location: San Francisco, CA

Conference Sponsors: SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Yu, Xianghua 

KBB-8004-2024 

0000-0002-7447-1396 

Zhang, Chun 

GRE-8915-2022 

 

Ye, Tong 

ABG-8560-2021 

0000-0003-1017-6969 

zhang, chunmei 

IUQ-7038-2023 

 

Ye, Tong 

A-8251-2010 

0000-0003-1017-6969 

zhang, cl 

JDW-6549-2023 

 

Yao, Baoli 

AAB-4606-2021 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1484-0; 978-1-5106-1483-3

 


 

Record 60 of 170

Title: Automatic precise alignment of Sagnac interferometer

Author(s): Li, TY (Li Tian-yue); Zhang, XM (Zhang Xue-min); Song, X (Song Xing)

Edited by: Guofan J; Guangjun Z

Source: FOURTH SEMINAR ON NOVEL OPTOELECTRONIC DETECTION TECHNOLOGY AND APPLICATION  Book Series: Proceedings of SPIE  Volume: 10697  Article Number: UNSP 106973L  DOI: 10.1117/12.2315428  Published: 2018  

Abstract: A Sagnac interferometer whose optical diameter is 80mm and spectral channel is 75 is introduced based on its working principle. The method of precision alignment is introduced in detail, which includes the installation of primary alignment plane, the precise location of splitting prism, the precise adjustment of long-arm and short-arm reflector. Through the installation of alignment reference and the masterly reference transformation, the precise alignment of separated Sagnac interferometer is achieved based on the principle of auto-collimation, whose position accuracy is better than 0.01mm, angle accuracy is better than 1", primary working plane is better than 1".

Accession Number: WOS:000435407700117

Conference Title: 4th Seminar on Novel Optoelectronic Detection Technology and Application

Conference Date: OCT 24-26, 2017

Conference Location: Nanjing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, Chinese Acad Engn, Div Informat & Elect Engn, Sci & Technol Low Light Level Night Vis Lab, N Night Vis Technol Co Ltd Corp

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Tianyue 

 

0000-0001-7682-7483 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1948-7

 


 

Record 61 of 170

Title: Design and analysis of a novel connective locking mechanism for future space mirrors assembly

Author(s): Li, XP (Li, Xupeng); Wang, W (Wang, Wei); Shi, JF (Shi, Jinfeng); Qu, YJ (Qu, Yanjun); Fan, XW (Fan, Xuewu)

Edited by: Wang Y; Xie H

Source: MICRO-OPTICS AND MOEMS  Book Series: Proceedings of SPIE  Volume: 10848  Article Number: UNSP 108480D  DOI: 10.1117/12.2505461  Published: 2018  

Abstract: A novel locking mechanism for future space mirrors assembly is presented. Using this locking mechanism, future primary mirror segments can be autonomously locked and unlocked. This compact design adopts passive locking mode, which improves the on-orbit autonomous assembly performance. In this paper, first, the design details and operation principle are addressed. Then, the failure conditions are discussed. By the external driving force, the static structural analysis and dynamic analysis are implemented to validate the design scheme. The final results show that the proposed locking mechanism avoids significant failure conditions and is considerably power efficient.

Accession Number: WOS:000455765700012

Conference Title: Conference on Micro-Optics and MOEMS / International Symposium on Optoelectronic Technology and Application (OTA)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Dept Cooperat & Coordinat Ind Acad & Res, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Shi, JIn 

JYP-1805-2024 

 

Huang, YQ 

JOK-7580-2023 

 

shi, jin 

JCD-8826-2023 

 

shi, jin 

KDO-7906-2024 

 

Li, Jiawei 

JOJ-9277-2023 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2339-2

 


 

Record 62 of 170

Title: Thermal Insulation Design of the Optical Measurement Device Used in Liquid Oxygen Tank

Author(s): Li, YH (Li, Yahui); Wu, L (Wu, Li); Geng, D (Geng, Dan); Qiang, ZH (Qiang, Zihao)

Edited by: Li JB

Source: 2018 EIGHTH INTERNATIONAL CONFERENCE ON INSTRUMENTATION AND MEASUREMENT, COMPUTER, COMMUNICATION AND CONTROL (IMCCC 2018)  Book Series: International Conference on Instrumentation Measurement Computer Communication and Control  Pages: 999-1002  DOI: 10.1109/IMCCC.2018.00210  Published: 2018  

Abstract: Based on the characteristics of low temperature and strong oxidation of liquid oxygen, a new temperature control method is proposed for optical measurement device in liquid oxygen medium. In order to ensure the temperature of the optical system satisfied the design requirements, the polyurethane is used as insulation materials and the heat-insulating is considered for the initial part design to increase the thermal resistance between optical system and the outside environment (passive thermal control). At the same time, the method of heating the optical lens with an electric heating film is adopted for active thermal control. According to the heat transfer theory, we analyze the heat transmission patterns and the heat influencing factors of the optical system. Making the finite element model of the optical measurement device on the ANSYS Workbench software, and simulate the heat transmission for different thickness and heating power. The result shows that the design of the optical measurement device is satisfied when the thickness of the insulating layer is 20mm, and the heating power is 19W.

Accession Number: WOS:000540385600203

Conference Title: 8th International Conference on Instrumentation and Measurement, Computer, Communication and Control (IMCCC)

Conference Date: JUL 19-21, 2018

Conference Location: Harbin Inst Technol, Harbin, PEOPLES R CHINA

Conference Sponsors: IEEE Harbin Sect, IEEE Comp Soc, NE Petr Univ

Conference Host: Harbin Inst Technol

ISSN: 2373-6844

ISBN: 978-1-5386-8246-3

 


 

Record 63 of 170

Title: Research on the Optical System of Single-band All-sky Airglow Imager

Author(s): Li, ZT (Li, Zhantao); Bin, H (Bin, Han); Yang, X (Yang, Xiao); Yu, TT (Yu, Tingting)

Edited by: Pu M; Ma X; Li X; Hong M; Wang C; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES (AOMATT 2018): META-SURFACE-WAVE AND PLANAR OPTICS  Book Series: Proceedings of SPIE  Volume: 10841  Article Number: UNSP 108410R  DOI: 10.1117/12.2504967  Published: 2018  

Abstract: The middle and upper atmosphere is an important part of atmosphere of the earth. In this region, there are many photochemical phenomena and dynamical processes. One of the photochemical phenomena is airglow. When excited atmospheric molecule or atom transmits to lower level, the light with some wavelength will emit. The light is referred to as airglow. Airglow is therefore a powerful tool in investigations of atmospheric composition, temperature, and density in the emission region, and mass and energy movements to or from this region.
Tracing the airglow emission, all-sky airglow imagers are widely used for imaging the atmospheric airglow. The characters of the imager are: wide field of view, fast, high resolution, low cost.
This paper systematically studies the basic principle of the imager, completes the calculation of the key parameters, designs the optical system structure of the imager and optimizes the system image quality to obtain an ideal design result. The main contents can be list as follow.
All-sky imaging technology records the optical phenomena in the 180 degrees range above the ground plane with imaging and storage media. Use the fisheye lens to realize the 180 degrees of the field of view. Different airglow layers correspond to different radiation peak heights. In order to obtain the atmospheric airglow signal at a certain height, it is necessary to filter the airglow radiation of different bands. The intensity of airglow information using narrow-band filter extraction feature height region of the upper atmosphere. High-sensitivity CCD were used to record all-sky airglow intensity distributions. The system consists of fisheye lens, telecentric imaging lens, filter, imaging lens and CCD. Through the analysis of recorded images, obtained observation data of regional atmospheric fluctuations of airglow height.
The central wavelength of the imaging system is 630.5 nm, the bandwidth is 2 nm, the field of view is 180 degrees the focal length is 5 mm, and the relative aperture is 1:1.9; The modulation transfers function (MTF) is more than 0.75 at the Nyquist spatial frequency of 37 lp/mm. The root-mean-square (RMS) radius of spot diagram is less than half of the pixel. 80% of the energy is enclosed in a pixel, and the uniformity of image illumination is 89%. The design requirements are satisfied. And based on the final design, the lens is simplified and the glass material is simplified. Finally, optimization of tolerance analysis is used to guide actual production. The final system structure compact, low cost, high resolution, suitable for airglow atmospheric radiation detection.

Accession Number: WOS:000461820700026

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies (AOMATT) - Meta-Surface-Wave and Planar Optics

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, SPIE, Chinese Opt Soc

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

yu, tingting 

HGA-4783-2022 

 

Jiang, Yalin 

ITV-2565-2023 

0009-0003-3726-8828 

Li, Zhantao 

AAA-2938-2020 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2325-5

 


 

Record 64 of 170

Title: Speckle reduction for long distance Fourier ptychography using truncated amplitude flow and filtering

Author(s): Li, ZX (Li, Zhixin); Wen, DS (Wen, Desheng); Song, ZX (Song, Zongxi)

Book Group Author(s): IEEE

Source: 2018 INTERNATIONAL CONFERENCE ON CONTROL, AUTOMATION AND INFORMATION SCIENCES (ICCAIS)  Book Series: International Conference on Control Automation and Information Sciences  Pages: 28-32  Published: 2018  

Abstract: Fourier Ptychography (FP) is a new method for long-distance, sub-diffraction imaging. However, due to the coherence of laser-illumination and the scattering of the objects' surface, there will be obvious laser speckle noise in measured images. In this work, we reconstruct the high resolution image following two steps: the first step is to recover the Fourier spectrum using truncated amplitude flow algorithm, and the second step is to enhance the noisy recovered images using denoisers during reconstruction. It's demonstrated that this method can effectively suppress speckle noise, improve PSNR about 7dB and improve SSIM about 0.2 compared with other algorithms.

Accession Number: WOS:000454989200006

Conference Title: 7th International Conference on Control Automation and Information Sciences (ICCAIS)

Conference Date: OCT 24-27, 2018

Conference Location: Hangzhou Dianzi Univ, Hangzhou, PEOPLES R CHINA

Conference Sponsors: IEEE, CAAI, Intelligent Serv Comm, CAA, Granular Comp & Multi Scale Anal Comm, Sensors

Conference Host: Hangzhou Dianzi Univ

ISSN: 2475-7896

ISBN: 978-1-5386-6020-1

 


 

Record 65 of 170

Title: Research on Precision Tracking on Fast Steering Mirror and Control Strategy

Author(s): Lin, D (Lin Di); Wu, YM (Wu Yi-ming); Zhu, F (Zhu Fan)

Book Group Author(s): IOP

Source: 2017 INTERNATIONAL CONFERENCE ON POWER AND ENERGY ENGINEERING  Book Series: IOP Conference Series-Earth and Environmental Science  Volume: 114  Article Number: 012009  DOI: 10.1088/1755-1315/114/1/012009  Published: 2018  

Abstract: Fast steering mirror is a device used for controlling the beam direction precisely. Due to the short travel of the push-pull FSM, a compound fast steering mirror system driven by both limited-angle voice coil motor and push-pull FSM together is proposed. In the compound FSM system, limited-angle voice coil motor quickly swings at wide angle, while the push-pull FSM do high frequency movement in a small range, which provides the system with the high bandwidth and long travel. In the control strategy, the method of combining feed-forward control in Kalman filtering with auto-disturbance rejection control is used to improve trajectory tracking accuracy. The simulation result shows that tracking accuracy measured by the compound method can be improved by more than 5 times than that of the conventional PID.

Accession Number: WOS:000454981000009

Conference Title: International Conference on Power and Energy Engineering (ICPEE)

Conference Date: SEP 13-15, 2017

Conference Location: Ottawa, CANADA

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

wu, yiming 

AAB-6998-2019 

 

 

ISSN: 1755-1307

 


 

Record 66 of 170

Title: Performance Evaluation of Phase Diversity Wavefront Sensing in Obtaining High-resolution Images

Author(s): Ling, Z (Ling, Zhang); Hui, Z (Hui, Zhao); Fan, XW (Fan, Xuewu)

Edited by: Jiang X; Hwang JN

Source: TENTH INTERNATIONAL CONFERENCE ON DIGITAL IMAGE PROCESSING (ICDIP 2018)  Book Series: Proceedings of SPIE  Volume: 10806  Article Number: UNSP 1080630  DOI: 10.1117/12.2502821  Published: 2018  

Abstract: Phase diversity wave-front sensing technique (PD) is a widely known estimation method of wave-front deformation of optical imaging system. Base on PD, high-resolution image could be obtained by eliminating the influence of wave-front deformation through online or offline restoration. However, there are a variety of errors that could affect the accuracy and efficiency in obtaining wave-front estimation and in reconstructing images. Hence in this paper, a large number of simulations are carried out to evaluate the performance of PD considering five major factors including the value of introduced defocus, the defocus error, the noise level, the scale of wave-front aberration, and the size of the images. Two criteria are adopted to do the evaluation. One is based on consistency between the estimated wave-front and the purposely introduced one. The other is based on the accuracy of reconstructed images. The results demonstrate that the introduced defocus value should be controlled in the range of 0.2 lambda-1.2 lambda, Gaussian noise level should be less than 0.0005, wave-front aberration should be in the range of 0.3 lambda-1.2 lambda, and defocus error should be controlled in the range of -50 mu m - 10 mu m (corresponding to -0.0988 o -0.0198 lambda). Besides those, as long as the size of the restored image is less than 128*128 pixels, the total estimation and reconstruction time will not exceed 5.96s.

Accession Number: WOS:000452819600107

Conference Title: 10th International Conference on Digital Image Processing (ICDIP)

Conference Date: MAY 11-14, 2018

Conference Location: E China Normal Univ, Shanghai, PEOPLES R CHINA

Conference Sponsors: Shanghai Key Lab Multidimens Informat Proc, Int Assoc Comp Sci & Informat Technol

Conference Host: E China Normal Univ

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

zhang, ling 

AAT-1894-2020 

0000-0003-1748-1771 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2200-5

 


 

Record 67 of 170

Title: Fast OMP reconstruction for compressive hyperspectral imaging using joint spatial-spectral sparsity model

Author(s): Liu, HY (Liu Haiying); Chen, RL (Chen Rongli); Wang, YJ (Wang Yajun); Lv, P (Lv Pei)

Edited by: Huang Y

Source: TENTH INTERNATIONAL CONFERENCE ON INFORMATION OPTICS AND PHOTONICS  Book Series: Proceedings of SPIE  Volume: 10964  Article Number: UNSP 109640J  DOI: 10.1117/12.2504270  Published: 2018  

Abstract: Hyperspectral imaging typically produces huge data volume that demands enormous computational resources in terms of storage, computation and transmission, particularly when real-time processing is desired. In this paper, we study a low-complexity scheme for hyperspectral imaging completely bypassing high-complexity compression task. In this scheme, compressive hyperspectral data are acquired directly by a device similar to the single-pixel camera based on the principle of compressive sensing (CS). To decode the compressive data, we propose a flexible recovery strategy by taking advantage of the joint spatial-spectral correlation model of hyperspectral images. Moreover, a thorough investigation is analytically conducted on compressive hyperspectral data and we find that the compressive data still have strong spectral correlation. To make the recovery more accurate, an adaptive spectral band reordering algorithm is directly added to the compressive data before the reconstruction by making best use of spectral correlation. The real hyperspectral images are tested to demonstrate the feasibility and efficiency of the proposed algorithm. Experimental results indicate that the proposed recover algorithm can speed up the reconstruction process with reliable recovery quality.

Accession Number: WOS:000456505500014

Conference Title: 10th International Conference on Information Optics and Photonics

Conference Date: JUL 08-11, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Laser Press, Tsinghua Univ, Int Soc Opt & Photon

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2580-8

 


 

Record 68 of 170

Title: Design and research of a spectral data acquisition system for underwater in-situ detection

Author(s): Liu, H (Liu Hong); Yu, T (Yu Tao); Hu, BL (Hu Bing-liang); Li, HB (Li Hong-bo); Zhang, ZF (Zhang Zhou-feng)

Edited by: Guina M; Gong H; Lu J; Liu D

Source: OPTICAL SENSING AND IMAGING TECHNOLOGIES AND APPLICATIONS  Book Series: Proceedings of SPIE  Volume: 10846  Article Number: UNSP 108461V  DOI: 10.1117/12.2505192  Published: 2018  

Abstract: The study of underwater in-situ detection is an important research trend in underwater detection. In view of the design requirements of the spectral data acquisition system for underwater in-situ detection, this paper used the software and hardware co-design method, from two aspects of software and hardware. A prototype system of spectral data acquisition system based on Xilinx Zynq chip and linear array CCD detector was designed and implemented. Through theoretical analyzing, experimental debugging and verification analyzing, the results shown that the system could collect and store the spectral data in real time. It also had the characteristics of low noise and had a small electronic structure, which laid a foundation for the spectral data acquisition of underwater in-situ detection.

Accession Number: WOS:000455303600064

Conference Title: Conference on Optical Sensing and Imaging Technologies and Applications / International Symposium on Optoelectronic Technology and Application (OTA) / Annual Conference of the Chinese-Society-for-Optical-Engineering (CSOE)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Dept Cooperat & Coordinat Ind Acad & Res, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Hong-bo 

A-1199-2015 

 

Zhang, Can 

JUU-9511-2023 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2335-4

 


 

Record 69 of 170

Title: Polarization characterics of underwater upwelling radiance of suspended particulate matters in turbid waters based on radiative transfer simulation

Author(s): Liu, J (Liu, Jia); Liu, JH (Liu, Jiahang); He, XQ (He, Xianqiang); Bai, Y (Bai, Yan); Chen, XY (Chen, Xiaoyan); Chen, P (Chen, Peng); Chen, TQ (Chen, Tieqiao); Wang, YH (Wang, Yihao); Zhu, F (Zhu, Feng)

Edited by: Bostater CR; Mertikas SP; Neyt X

Source: REMOTE SENSING OF THE OCEAN, SEA ICE, COASTAL WATERS, AND LARGE WATER REGIONS 2018  Book Series: Proceedings of SPIE  Volume: 10784  Article Number: 1078411  DOI: 10.1117/12.2325293  Published: 2018  

Abstract: The polarization of water-leaving radiance (Lw) is more sensitive to microphysical properties (e.g. particles shapes, size distributions, compositions, and refractive index) of hydrosols than the unpolarised radiance. Hence, the polarized Lw can be used to extract additional information on oceanic constituents, which is complementary to the spectral and angular radiance measurements. In this study, the polarization characteristics of underwater upwelling radiance in turbid waters with respect to suspended particulate matters have been investigated. The full Stokes components of the underwater upwelling radiance in the visible spectrum are calculated using a radiative transfer model. And then, the influences of suspended particulate matter concentrations on the directional variations and the polarization of underwater upwelling radiance are examined. The results reveal that the polarization of underwater upwelling radiance (I, Q, U, DOP) shows significant multidirectional variations with respect to observation geometries, wavelengths, and solar zenith angles. Moreover, the polarization of underwater upwelling radiance is highly related to the suspended particulate matter concentrations. It demonstrates the potential of using the polarized signal to retrieve particle concentrations in coastal waters. Therefore, the development of in-situ instrumentations and next generation of ocean color sensors should able to measure the polarization properties of water-leaving radiance are recommended.

Accession Number: WOS:000453559400020

Conference Title: Conference on Remote Sensing of the Ocean, Sea Ice, Coastal Waters, and Large Water Regions

Conference Date: SEP 10-12, 2018

Conference Location: Berlin, GERMANY

Conference Sponsors: SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

CHEN, Peng 

ABD-9050-2021 

0000-0002-0635-9220 

yang, rui 

JHI-3328-2023 

 

CHEN, Peng 

GSD-2999-2022 

0000-0002-0635-9220 

Bai, Yan 

C-7370-2015 

 

CHEN, Peng 

AAV-4065-2021 

0000-0002-0635-9220 

Liu, Jiahang 

 

0000-0001-5177-8216 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2152-7

 


 

Record 70 of 170

Title: Directional variations in parallel polarized water-leaving radiance for suspended particulate matters in coastal waters based on radiative transfer simulation

Author(s): Liu, J (Liu, Jia); Liu, JH (Liu, Jiahang); He, XQ (He, Xianqiang); Bai, Y (Bai, Yan); Chen, XY (Chen, Xiaoyan); Chen, P (Chen, Peng); Chen, P (Chen, Peng); Chen, TQ (Chen, Tieqiao); Wang, YH (Wang, Yihao); Zhu, F (Zhu, Feng)

Edited by: Bostater CR; Mertikas SP; Neyt X

Source: REMOTE SENSING OF THE OCEAN, SEA ICE, COASTAL WATERS, AND LARGE WATER REGIONS 2018  Book Series: Proceedings of SPIE  Volume: 10784  Article Number: 1078410  DOI: 10.1117/12.2325093  Published: 2018  

Abstract: The inversion of total suspended particulate matter (TSM) from ocean color remote sensing data in coastal waters is still highly inaccurate due to contributions of various oceanic constituents and non-linear independently variation of each other. Since the absorption and scattering by molecules, aerosols, and hydrosols and reflection, transmission over the sea surface, the initially completely unpolarized sunlight becomes partially polarized after transmitting in the coupled atmosphere-ocean system (AOS). Hence, the polarization of the sunlight, which contains embedded information on atmospheric and water optical properties, has largely been neglected. In addition, the parallel polarization radiance (PPR) has two significant advantages in effectively diminishing the sun-glint contamination and enhancing the ocean color signal at the top-of-atmosphere (TOA). In this study, the directional variations in parallel polarized water-leaving radiance of suspended particulate matters in coastal waters, based on the vector radiative transfer simulations (RT), were examined. The simulations reveal that the traditional radiation intensity (I) and parallel polarization radiance (PPR) display significant multidirectional and spectral variations with respect to the observation geometries, and TSM concentrations. Moreover, the water-leaving (Lw) radiance for I and PPR have the same angular distribution pattern and magnitude under different bands. In addition, the relative fraction of Lw to Lt for PPR is large than I, indicating that the PPR can improve to retrieve the Lw radiance at the TOA. Furthermore, an exponent relationship between the Rrs_p and the TSM concentration has been established with low corresponding AD (1.258%) and RMSE (0.202). It demonstrates that the polarization of the Lw radiance is closely related to oceanic constituents, and has great potential for the retrieval of TSM concentrations.

Accession Number: WOS:000453559400019

Conference Title: Conference on Remote Sensing of the Ocean, Sea Ice, Coastal Waters, and Large Water Regions

Conference Date: SEP 10-12, 2018

Conference Location: Berlin, GERMANY

Conference Sponsors: SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

CHEN, Peng 

GSD-2999-2022 

0000-0002-0635-9220 

Bai, Yan 

C-7370-2015 

 

yang, rui 

JHI-3328-2023 

 

CHEN, Peng 

ABD-9050-2021 

0000-0002-0635-9220 

CHEN, Peng 

AAV-4065-2021 

0000-0002-0635-9220 

Liu, Jiahang 

 

0000-0001-5177-8216 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2152-7

 


 

Record 71 of 170

Title: A Fusion Method of Multi-Spectral Image and Panchromatic Image Based on NSCT Transform and Adaptive Gamma Correction

Author(s): Liu, JH (Liu Jiahuan); Zhang, J (Zhang Jian); Du, YF (Du Yunfei)

Book Group Author(s): IEEE

Source: 2018 3RD INTERNATIONAL CONFERENCE ON INFORMATION SYSTEMS ENGINEERING (ICISE)  Book Series: International Conference on Information Science and Engineering  Pages: 10-15  DOI: 10.1109/ICISE.2018.00010  Published: 2018  

Abstract: The purpose of remote sensing images fusion is to produce a fused image that contains more clear, accurate and comprehensive information than any single image. an image fusion algorithm incorporating gamma-corrected is proposed based on non-subsampled Contourlet transform(NSCT). Firstly, the multispectral image is transformed to intensity-hue-saturation (IHS) system. Secondly, the panchromatic image and the component intensity of the multispectral image are decomposed by NSCT. Then the NSCT coefficients of high and low frequency subbands are fused by different rules, respectively. For the low frequency subbands, an adaptive gamma correction was used and mutual information as the threshold for the weighted coefficient fusion. The max-abs-based fusion rule is used to fuse the high frequency coefficients. Finally, the fusion image can be obtained by performing inverse NSCT and inverse IHS transform. Experiment results demonstrate that the fused image contains abundant detailed contents and preserves the saliency structure. Our proposed method achieves better visual quality than the current methods.

Accession Number: WOS:000458279200003

Conference Title: 3rd International Conference on Information Systems Engineering (ICISE)

Conference Date: MAY 04-06, 2018

Conference Location: Shanghai, PEOPLES R CHINA

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

li, jian 

IAQ-2794-2023 

 

WANG, Bin 

JGM-2639-2023 

 

 

ISSN: 2160-1283

ISBN: 978-1-5386-6259-5

 


 

Record 72 of 170

Title: Long wave infrared optical system design based on fast and small target detection

Author(s): Liu, K (Liu Kai); Duan, J (Duan Jing); Shan, QS (Shan Qiusha); Jiang, K (Jiang Kai); Yan, PP (Yan Peipei); Wang, M (Wang Miao)

Edited by: Chu J; Liu W; Jiang H

Source: FIFTH CONFERENCE ON FRONTIERS IN OPTICAL IMAGING TECHNOLOGY AND APPLICATIONS (FOI 2018)  Book Series: Proceedings of SPIE  Volume: 10832  Article Number: UNSP 1083214  DOI: 10.1117/12.2508399  Published: 2018  

Abstract: A long-wavelength infrared optical system suitable for fast turntables is designed to meet the needs of fast and small target detection and tracking. The optical system consists of a main optical system and a projection lens assembly, it adopts a reflex structure, a secondary imaging technology and a pupil matching technique, reduces the radial size and lateral dimension of the system effectively. The envelope of the shape is within the range of Phi 204mmx360mm, compact structure and small volume. Considering that the system's working distance is in the range of 0.2km similar to 1km and the target speed is fast, the object distance has been specially designed to ensure that no focus adjustment is required within the range of action distance. In addition, stray light analysis is performed on the system and a stray light suppression scheme is given. The system is analyzed by stray light analysis software. The design results show that the optical system has excellent imaging quality and stray light suppression effect.

Accession Number: WOS:000454579900038

Conference Title: 5th Conference on Frontiers in Optical Imaging Technology and Applications (FOI)

Conference Date: JUL 25-27, 2018

Conference Location: Hefei, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Opt Engn, Photoelectron Technol Comm, Key Lab Polarizat Imaging Detect Technol, Chinese Acad Engn, Natl Nat Sci Fdn China

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2290-6

 


 

Record 73 of 170

Title: Design and realization of a new agorithm of calculating the absolute positon angle based on the incremental encoder

Author(s): Liu, P (Liu, Peng); Yang, YQ (Yang, Yong-qing); Li, ZG (Li, Zhi-guo); Han, JF (Han, Jun-feng); Wei, Y (Wei, Yu); Jing, F (Jing, Feng)

Edited by: Guofan J; Guangjun Z

Source: FOURTH SEMINAR ON NOVEL OPTOELECTRONIC DETECTION TECHNOLOGY AND APPLICATION  Book Series: Proceedings of SPIE  Volume: 10697  Article Number: UNSP 106975L  DOI: 10.1117/12.2309823  Published: 2018  

Abstract: Aiming at the shortage of the incremental encoder with simple process to change along the count "in the presence of repeatability and anti disturbance ability, combined with its application in a large project in the country, designed an electromechanical switch for generating zero, zero crossing signal. A mechanical zero electric and zero coordinate transformation model is given to meet the path optimality, single, fast and accurate requirements of adaptive fast change algorithm, the proposed algorithm can effectively solve the contradiction between the accuracy and the change of the time change. A test platform is built to verify the effectiveness and robustness of the proposed algorithm. The experimental data show that the effect of the algorithm accuracy is not influenced by the change of the speed of change, change the error of only 0.0013. Meet too fast, the change of system accuracy, and repeated experiments show that this algorithm has high robustness.

Accession Number: WOS:000435407700187

Conference Title: 4th Seminar on Novel Optoelectronic Detection Technology and Application

Conference Date: OCT 24-26, 2017

Conference Location: Nanjing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, Chinese Acad Engn, Div Informat & Elect Engn, Sci & Technol Low Light Level Night Vis Lab, N Night Vis Technol Co Ltd Corp

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Yang, Jing 

JFK-4046-2023 

0009-0004-8274-9863 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1948-7

 


 

Record 74 of 170

Title: ATTENTION BASED NETWORK FOR REMOTE SENSING SCENE CLASSIFICATION

Author(s): Liu, ST (Liu, Shaoteng); Wang, Q (Wang, Qi); Li, XL (Li, Xuelong)

Book Group Author(s): IEEE

Source: IGARSS 2018 - 2018 IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM  Book Series: IEEE International Symposium on Geoscience and Remote Sensing IGARSS  Pages: 4740-4743  Published: 2018  

Abstract: Scene classification of very high resolution remote sensing images is becoming more and more important because of its wide range of applications. However, previous works are mainly based on handcrafted features which do not have enough adaptability and expression ability. In this paper, inspired by the attention mechanism of human visual system, we propose a novel attention based network (AttNet) for scene classification. It can focus selectively on some key areas of images so that it can abandon redundant information. Essentially, AttNet gives a way to readjust the signal of supervision, and it is one of the first successful attempts on visual attention for remote sensing scene classification. Our method is evaluated on the UC Merced Land-Use Dataset, in comparison with some state-of-the-art methods. The experimental result shows that the proposed method makes a great improvement on both convergence speed and classification accuracy, and it also shows the effectiveness of visual attention for this task.

Accession Number: WOS:000451039804169

Conference Title: 38th IEEE International Geoscience and Remote Sensing Symposium (IGARSS)

Conference Date: JUL 22-27, 2018

Conference Location: Valencia, SPAIN

Conference Sponsors: Inst Elect & Elect Engineers, Inst Elect & Elect Engineers Geoscience & Remote Sensing Soc, European Space Agcy

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Xuelong 

Z-3785-2019 

 

Liu, Shaoteng 

Q-4870-2019 

0000-0001-5407-2905 

li, xiang 

GWM-6319-2022 

 

Li, Xuelong 

ABF-3381-2020 

 

Yan, Jing 

JFA-6705-2023 

 

wang, qi 

ITT-9652-2023 

 

Wang, Qi 

 

0000-0002-7028-4956 

 

ISSN: 2153-6996

ISBN: 978-1-5386-7150-4

 


 

Record 75 of 170

Title: Experimental study on underwater range-gated imaging system pulse and gate control coordination strategy

Author(s): Liu, W (Liu Wei); Li, Q (Li Qi); Hao, GY (Hao Ge-yang); Wu, GJ (Wu Guo-jun); Lv, P (Lv Pei)

Edited by: Li X; Wu L; Yao J; Yin H; Zhang R; Zhu Z

Source: OCEAN OPTICS AND INFORMATION TECHNOLOGY  Book Series: Proceedings of SPIE  Volume: 10850  Article Number: UNSP 108500Q  DOI: 10.1117/12.2505587  Published: 2018  

Abstract: The water has a strong absorption and scattering of light radiation, resulting in a certain depth of the underwater world in the dark. Therefore, underwater optical detection technology based on active lighting has become the main mode of deep-sea photo detection. Using a 532nm narrow-pulse laser and a self-built gain CCD system to form a underwater laser rang-gated imaging system, the forward and backward scattering are modeled and analyzed. Underwater laser rang-gated imaging system, was studied by laser pulse jitter, thus lead to the door of the control signal, the open time (earlier/later), the relationship between secondary scattering and image contrast curve, puts forward an optimal pulse with door control strategy. The correctness of the model is verified by the method of simulation and calculation of the relative ratio of the images acquired by the actual underwater laser distance gating imaging system. The results show that when the imaging system is not saturated, the image quality is best when the gate and the laser pulse are optimally matched. The effects of early opening and delayed opening on the image quality are different, and the duration of the gate opening is equal to the laser pulse width. At that time, the image quality is not optimal, and the effects of laser pulse jitter and secondary scattering are not all unfavorable. Based on the model, the opening time and the gate opening time are determined according to the contrast curve. It is generally advantageous to open the door lagging behind, and the duration of the gate opening should be 1-3 times the laser pulse width.

Accession Number: WOS:000455766200024

Conference Title: Conference on Ocean Optics and Information Technology / International Symposium on Optoelectronic Technology and Application (OTA)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Dept Cooperat & Coordinat Ind Acad & Res, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2343-9

 


 

Record 76 of 170

Title: Estimating Exposure and Noise of Space Target Image with Bidirectional Reflectance Distribution Function

Author(s): Liu, XL (Liu, Xinlong); Yi, HW (Yi, Hongwei); Cheng, Y (Cheng, Ying)

Edited by: Jiang X; Hwang JN

Source: TENTH INTERNATIONAL CONFERENCE ON DIGITAL IMAGE PROCESSING (ICDIP 2018)  Book Series: Proceedings of SPIE  Volume: 10806  Article Number: UNSP 108064G  DOI: 10.1117/12.2503090  Published: 2018  

Abstract: A modeling method is proposed for the visible light scattering characteristics of space objects, and a bidirectional reflection distribution function is introduced based on the radiation theory, using a material micro-surface based on Davies model. The visible light scattering characteristics of a spatial target are studied by the model. The different material irradiance of space target is simulated respectively, and the specific camera parameters are combined: 1. To analyze the range of gray values after space target imaging for different exposure times, 2. To calculates the possible signal-to-noise ratio of the image by calculating the noise of the camera imaging. At last, the suitable exposure time can be determined by the extremum of gray value, which can avoid the occurrence of excessive exposure or the analysis and evaluation of the quality of space visible light imaging combined with the noise.

Accession Number: WOS:000452819600159

Conference Title: 10th International Conference on Digital Image Processing (ICDIP)

Conference Date: MAY 11-14, 2018

Conference Location: E China Normal Univ, Shanghai, PEOPLES R CHINA

Conference Sponsors: Shanghai Key Lab Multidimens Informat Proc, Int Assoc Comp Sci & Informat Technol

Conference Host: E China Normal Univ

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2200-5

 


 

Record 77 of 170

Title: The properties of opaque CsI photocathode

Author(s): Liu, YA (Liu, Yong-an); Liu, Z (Liu, Zhe); Sheng, LZ (Sheng, Li-zhi); Tian, JS (Tian, Jin-shou); Wei, RY (Wei, Ru-yi); Zhao, BS (Zhao, Bao-sheng)

Edited by: Dai Q; Shimura T

Source: OPTOELECTRONIC IMAGING AND MULTIMEDIA TECHNOLOGY V  Book Series: Proceedings of SPIE  Volume: 10817  Article Number: UNSP 108171I  DOI: 10.1117/12.2505107  Published: 2018  

Abstract: Cesium iodide (CsI) photocathode is widely used in various UV (ultraviolet) detecting devices because of its high quantum efficiency (QE) and good stability under short exposure to humid air. In this paper, the performance of the opaque CsI photocathode is studied, including imaging performance, influence of humidity on the quantum efficiency and the stability of the CsI photocathode under FUV irradiation. In the experiment, the input surface of the MCP was evenly divided into four parts. Different thicknesses of the CsI photocathode were deposited directly on the front surface of micro-channel plates (opaque photocathode). The response of different thicknesses and the stability of UV quantum efficiency of CsI photocathode under FUV illumination were studied by using UV monochromator. At the same time, the influence of humid air exposure on the quantum efficiency of CsI photocathode was tested. According to the experimental results, a FUV detector (vacuum tube) based on opaque CsI photocathode was fabricated and the quantum efficiency of the detector was tested. Absolute quantum efficiency of the FUV detector is over 15.5% at 121nm.

Accession Number: WOS:000455325600044

Conference Title: Conference on Optoelectronic Imaging and Multimedia Technology V

Conference Date: OCT 11-12, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: SPIE, Chinese Opt Soc

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

huang, shan 

JVN-1240-2024 

 

Sheng, Lizhi 

G-4282-2018 

 

zhang, shijie 

HGF-0836-2022 

 

feng, chen 

JLM-8296-2023 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2233-3

 


 

Record 78 of 170

Title: Lateral thermal dissipation in InP-based InGaAsP ridge waveguide lasers

Author(s): Lixiao (Lixiao); Qiu, BC (Qiu, Bocang); Zhang, RY (Zhang Ruiying); Zhao, Y (Zhao Yue)

Edited by: Zhu NH; Hofmann WH

Source: SEMICONDUCTOR LASERS AND APPLICATIONS VIII  Book Series: Proceedings of SPIE  Volume: 10812  Article Number: UNSP 1081216  DOI: 10.1117/12.2500787  Published: 2018  

Abstract: Thermal dissipation is critical for any semiconductor lasers, because heat will lead to their performance degradation, such as wavelength shift, output power decrease, and even device damage. For InP-based InGaAsP semiconductor lasers, heat affection induced by their Auger recombination is so strong that thermal-electronic-controller must be adopted for these lasers operation. Therefore, heat dissipation from up (flip-chip method) and down (heat sink) of these InP-based InGaAsP semiconductor laser has been thoroughly investigated. cladded by the passivation material with high thermal resistance. In this paper, we built two-dimension heat dissipation model by finite-element-method for InP-based InGaAsP FP lasers and investigated the influence of lateral waveguide structure, passivation material, and filling material on the lateral heat dissipation. Our simulation results shows that both the passivation material with low thermal resistance and two-channel waveguide filled with high thermal conductivity material indeed benefit the lateral heat dissipation of these edge-emitting semiconductor lasers. The maximum temperature decrease of 6.8 degrees C in this InP-based InGaAsP ridge waveguide laser with the output power of 18 mW has been achieved in the optimized waveguide structure, where, double-channel waveguide with channel radius of 17 mu m and filled with graphene was adopted, the active region is cladded by 300 nm-thick AN, and then the filling layer of graphene is designed near the InP ridge, and a layer of gold coating with 3.5 mu m thickness is deposited on the ridge of the semiconductor laser. Such investigation shows that lateral heat dissipation is possible for these channel waveguide semiconductor lasers.

Accession Number: WOS:000454443500032

Conference Title: Conference on Semiconductor Lasers and Applications VIII

Conference Date: OCT 12-13, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: SPIE, Chinese Opt Soc

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2223-4

 


 

Record 79 of 170

Title: Vector Magnetic Field Sensor Based on Excessively Tilted Fiber Grating Assistant with Magnetic Fluids

Author(s): Lu, TA (Lu, Tean); Sun, YZ (Sun, Yuezhen); Moreno, Y (Moreno, Yarien); Yan, ZJ (Yan, Zhijun); Wang, CL (Wang, Changle); Sun, QZ (Sun, Qizhen); Wang, HS (Wang, Hushan); Liu, DM (Liu, Deming); Zhang, L (Zhang, Lin)

Book Group Author(s): IEEE

Source: 2018 ASIA COMMUNICATIONS AND PHOTONICS CONFERENCE (ACP)  Book Series: Asia Communications and Photonics Conference and Exhibition  Published: 2018  

Abstract: We demonstrated a vector magnetic field sensor based on an excessively tilted fiber grating immersed in magnetic fluid, in which both intensity and orientation of magnetic field could be measured.

Accession Number: WOS:000459847900009

Conference Title: Asia Communications and Photonics Conference (ACP)

Conference Date: OCT 26-29, 2018

Conference Location: Hangzhou, PEOPLES R CHINA

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

chen, si 

JPK-4258-2023 

 

Zhang, Liguo 

GSJ-3764-2022 

0000-0001-7455-2893 

zhang, lin 

IZQ-4870-2023 

 

zhang, xiang 

JJD-7003-2023 

 

Lin, Zhang 

S-4070-2017 

 

Zhang, Li 

GWM-7501-2022 

 

Zhang, Lin 

HZH-4842-2023 

 

Moreno, Yarien 

W-4366-2019 

 

Moreno, Yarien 

 

0000-0002-6646-8162 

 

ISSN: 2162-108X

ISBN: 978-1-5386-6158-1

 


 

Record 80 of 170

Title: Self-Representative Manifold Concept Factorization with Adaptive Neighbors for Clustering

Author(s): Ma, SH (Ma, Sihan); Zhang, LF (Zhang, Lefei); Hu, WB (Hu, Wenbin); Zhang, YP (Zhang, Yipeng); Wu, J (Wu, Jia); Li, XL (Li, Xuelong)

Edited by: Lang J

Source: PROCEEDINGS OF THE TWENTY-SEVENTH INTERNATIONAL JOINT CONFERENCE ON ARTIFICIAL INTELLIGENCE  Pages: 2539-2545  Published: 2018  

Abstract: Matrix Factorization based methods, e.g., the Concept Factorization (CF) and Nonnegative Matrix Factorization (NMF), have been proved to be efficient and effective for data clustering tasks. In recent years, various graph extensions of CF and NMF have been proposed to explore intrinsic geometrical structure of data for the purpose of better clustering performance. However, many methods build the affinity matrix used in the manifold structure directly based on the input data. Therefore, the clustering results are highly sensitive to the input data. To further improve the clustering performance, we propose a novel manifold concept factorization model with adaptive neighbor structure to learn a better affinity matrix and clustering indicator matrix at the same time. Technically, the proposed model constructs the affinity matrix by assigning the adaptive and optimal neighbors to each point based on the local distance of the learned new representation of the original data with itself as a dictionary. Our experimental results present superior performance over the state-of-the-art alternatives on numerous datasets.

Accession Number: WOS:000764175402095

Conference Title: 27th International Joint Conference on Artificial Intelligence (IJCAI)

Conference Date: JUL 13-19, 2018

Conference Location: Stockholm, SWEDEN

Conference Sponsors: Int Joint Conf Artifical Intelligence, Didi ChuXing, Xiaoi, Tencent, JD.com, Alibaba Grp, Baidu, Tieto, Adobe, Pwc, Artificial Intelligence Journal, Ericsson, Recorded Future, Songshu AI Learning, Microsoft, Node Pole, Nnaisense, Vinnova, IBM, Hitachi, Sondrel, Inovia ai, Figure Eight, Prowler.io, Nuance

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

WU, Jia 

V-1766-2019 

0000-0001-9013-0818 

Li, Xuelong 

Z-3785-2019 

 

Zhang, Lefei 

HHM-8850-2022 

0000-0003-0542-2280 

Wu, Jia 

 

0000-0002-1371-5801 

 

ISBN: 978-0-9992411-2-7

 


 

Record 81 of 170

Title: Performance Analysis of Decomposed Cramer-von Mises Detector for Blind Spectrum Sensing under Noise Uncertainty

Author(s): Mi, Y (Mi, Yin); Lu, GY (Lu, Guangyue)

Book Group Author(s): IEEE

Source: 2018 10TH INTERNATIONAL CONFERENCE ON WIRELESS COMMUNICATIONS AND SIGNAL PROCESSING (WCSP)  Book Series: International Conference on Wireless Communications and Signal Processing  Published: 2018  

Abstract: The performance of the existing spectrum sensing algorithms based on goodness of fit (GoF) tests are excellent, however, they are sensitive to the noise uncertainty. In this paper, the first component of Cramer-von Mises, insensitive to variances shift, is employed as lest statistic in GoF test and a fast spectrum sensing based on the component of Cramer-von Mises is proposed. The detection probability and false alarm probability of the proposed method are analyzed, and its theoretical threshold is derived. Simulation results demonstrate that the proposed method can overcome the noise uncertainty and has lower complexity compared with Cramer-Von Mises (CM) criterion, and the false alarm probability can satisfy the requirements of the standard.

Accession Number: WOS:000462059400047

Conference Title: 10th International Conference on Wireless Communications and Signal Processing (WCSP)

Conference Date: OCT 18-20, 2018

Conference Location: Hangzhou, PEOPLES R CHINA

Conference Sponsors: IEEE, IEEE Commun Soc, Zhejiang Univ, Univ Sci & Technol China, Army Engn Univ PLA, Nanjing Univ Posts & Telecommunicat, SE Univ, CIC Commun & Signal Proc Soc, ITS, Cmmun Soc, WCSP

ISSN: 2325-3746

ISBN: 978-1-5386-6119-2

 


 

Record 82 of 170

Title: Design of Off-axis Three-mirror Freeform Optical System with Wide Field of View

Author(s): Ni, DW (Ni, Dongwei); Li, X (Li, Xuyang); Ren, ZG (Ren, Zhiguang); Wang, YM (Wang, Yuming); Wang, L (Wang, Lei); Tian, CL (Tian, Chunlin)

Edited by: Ma X; Fan B; Wan Y; Russell A; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES: LARGE MIRRORS AND TELESCOPES  Book Series: Proceedings of SPIE  Volume: 10837  Article Number: UNSP 108370Z  DOI: 10.1117/12.2504915  Published: 2018  

Abstract: In order to obtain a wider imaging field of view, freeform surface is used to design a large field of view space optical imaging system. The system uses an off-axis three-mirror optical structure with focal length of 1600 mm, F number of 8, and field of view angle of 20 degrees x1 degrees. Because of the large field of view, the image quality of general aspheric optimization design system cannot meet the requirements. In order to improve the freedom of system design, the Zernike polynomial freeform surface is applied to the tertiary mirror of the system, which enables the sagittal field of view to reach 20 degrees, further widening the imaging field of view. Degrees of freedom are increased effectively by the addition of the freeform surface. After optimization design, the optical transfer function of the system is better than 0.5 at 63 lp/mm, and the diffusion spot is optimized into Airy circle. The system energy concentration is high, and the imaging quality is close to the diffraction limitation.

Accession Number: WOS:000459720200034

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies - Large Mirrors and Telescopes

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, Chinese Opt Soc, SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

wangwangwang, yuanyaunyuan 

HHN-6432-2022 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2317-0

 


 

Record 83 of 170

Title: A Large Field of View Optical System Design for Space Target Detection

Author(s): Ni, DW (Ni, Dongwei); Li, XY (Li, Xuyang); Yang, MY (Yang, Mingyang); Tian, CL (Tian, Chunlin); Zhang, L (Zhang, Ling)

Edited by: Yu Y; Zuo C; Qian K

Source: SIXTH INTERNATIONAL CONFERENCE ON OPTICAL AND PHOTONIC ENGINEERING (ICOPEN 2018)  Book Series: Proceedings of SPIE  Volume: 10827  Article Number: 108272P  DOI: 10.1117/12.2500408  Published: 2018  

Abstract: An off-axis three-mirror detection system with a large field of view is designed in order to improve the space target detection capability. The optical system is a Cook-TMA with the focal length of 127mm, the F number of 2, the field angle of 25 degrees x 25 degrees and the spectral range of 400-700nm. The primary mirror and the tertiary mirror of the off-axis three-mirror system are all designed by freeform surfaces: the primary mirror is characterized by Zernike polynomial and the tertiary mirror is described by XY polynomial. At the same time, we analyze the related characteristics of Zernike polynomial and XY polynomial. The results show that the freeform surfaces have great advantages in improving the field of view and the imaging quality of the off-axis optical system. The system has high energy concentration and good imaging quality, which can capture and track the target in a wide range is suitable for wide area target monitoring.

Accession Number: WOS:000450859600096

Conference Title: 6th International Conference on Optical and Photonic Engineering (icOPEN)

Conference Date: MAY 08-11, 2018

Conference Location: Shanghai, PEOPLES R CHINA

Conference Sponsors: Opt & Photon Soc Singapore, Chinese Laser Press, Shanghai Univ, Xian Technol Univ, Xian Univ Posts & Telecommunicat, Opt & Photon Soc Singapore China, Nanjing Univ Sci & Technol, Sichuan Univ, Japan Soc Elect Microscopy, Orbbec 3D, LIGHTSOFT, CISPES, China Int Optoelectron Expo

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

zhang, ling 

AAT-1894-2020 

0000-0003-1748-1771 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2257-9

 


 

Record 84 of 170

Title: Calibrated Multi-Task Learning

Author(s): Nie, FP (Nie, Feiping); Hu, ZX (Hu, Zhanxuan); Li, XL (Li, Xuelong)

Book Group Author(s): ACM

Source: KDD'18: PROCEEDINGS OF THE 24TH ACM SIGKDD INTERNATIONAL CONFERENCE ON KNOWLEDGE DISCOVERY & DATA MINING  Pages: 2012-2021  DOI: 10.1145/3219819.3219951  Published: 2018  

Abstract: This paper proposes a novel algorithm, named Non-Convex Calibrated Multi-Task Learning (NC-CMTL), for learning multiple related regression tasks jointly. Instead of utilizing the nuclear norm, NC-CMTL adopts a non-convex low rank regularizer to explore the shared information among different tasks. In addition, considering that the regularization parameter for each regression task desponds on its noise level, we replace the least squares loss function by square-root loss function. Computationally, as proposed model has a non-smooth loss function and a non-convex regularization term, we construct an efficient re-weighted method to optimize it. Theoretically, we first present the convergence analysis of constructed method, and then prove that the derived solution is a stationary point of original problem. Particularly, the regularizer and optimization method used in this paper are also suitable for other rank minimization problems. Numerical experiments on both synthetic and real data illustrate the advantages of NC-CMTL over several state-of-the-art methods.

Accession Number: WOS:000455346400207

Conference Title: 24th ACM SIGKDD Conference on Knowledge Discovery and Data Mining (KDD)

Conference Date: AUG 19-23, 2018

Conference Location: London, ENGLAND

Conference Sponsors: Assoc Comp Machinery, Assoc Comp Machinery SIGKDD, Assoc Comp Machinery SIGMOD

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Nie, Feiping 

B-3039-2012 

 

Li, Xuelong 

Z-3785-2019 

 

li, xiang 

GWM-6319-2022 

 

Li, Xuelong 

ABF-3381-2020 

 

Li, Xuelong 

 

0000-0002-0019-4197 

Nie, Feiping 

 

0000-0002-0871-6519 

 

ISBN: 978-1-4503-5552-0

 


 

Record 85 of 170

Title: Multiview Clustering via Adaptively Weighted Procrustes

Author(s): Nie, FP (Nie, Feiping); Tian, L (Tian, Lai); Li, XL (Li, Xuelong)

Book Group Author(s): ACM

Source: KDD'18: PROCEEDINGS OF THE 24TH ACM SIGKDD INTERNATIONAL CONFERENCE ON KNOWLEDGE DISCOVERY & DATA MINING  Pages: 2022-2030  DOI: 10.1145/3219819.3220049  Published: 2018  

Abstract: In this paper, we make a multiview extension of the spectral rotation technique raised in single view spectral clustering research. Since spectral rotation is closely related to the Procrustes Analysis for points matching, we point out that classical Procrustes Average approach can be used for multiview clustering. Besides, we show that direct applying Procrustes Average (PA) in multiview tasks may not be optimal theoretically and empirically, since it does not take the clustering capacity differences of different views into consideration. Other than that, we propose an Adaptively Weighted Procrustes (AWP) approach to overcome the aforementioned deficiency. Our new AWP weights views with their clustering capacities and forms a weighted Procrustes Average problem accordingly. The optimization algorithm to solve the new model is computational complexity analyzed and convergence guaranteed. Experiments on five real-world datasets demonstrate the effectiveness and efficiency of the new models.

Accession Number: WOS:000455346400208

Conference Title: 24th ACM SIGKDD Conference on Knowledge Discovery and Data Mining (KDD)

Conference Date: AUG 19-23, 2018

Conference Location: London, ENGLAND

Conference Sponsors: Assoc Comp Machinery, Assoc Comp Machinery SIGKDD, Assoc Comp Machinery SIGMOD

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Xuelong 

ABF-3381-2020 

 

Nie, Feiping 

B-3039-2012 

 

Li, Xuelong 

Z-3785-2019 

 

li, xiang 

GWM-6319-2022 

 

Li, Xuelong 

 

0000-0002-0019-4197 

Nie, Feiping 

 

0000-0002-0871-6519 

 

ISBN: 978-1-4503-5552-0

 


 

Record 86 of 170

Title: Subwavelength resolution Fourier ptychography with hemispherical digital condensers

Author(s): Pan, A (Pan, An); Zhang, Y (Zhang, Yan); Li, MS (Li, Maosen); Zhou, ML (Zhou, Meiling); Lei, M (Lei, Ming); Yao, BL (Yao, Baoli)

Edited by: Popescu G; Park Y

Source: QUANTITATIVE PHASE IMAGING IV  Book Series: Proceedings of SPIE  Volume: 10503  Article Number: UNSP 105032S  DOI: 10.1117/12.2289906  Published: 2018  

Abstract: Fourier ptychography (FP) is a promising computational imaging technique that overcomes the physical space-bandwidth product (SBP) limit of a conventional microscope by applying angular diversity illuminations. However, to date, the effective imaging numerical aperture (NA) achievable with a commercial LED board is still limited to the range of 0.3-0.7 with a 4x/0.1NA objective due to the constraint of planar geometry with weak illumination brightness and attenuated signal-to-noise ratio (SNR). Thus the highest achievable half-pitch resolution is usually constrained between 500-1000 nm, which cannot fulfill some needs of high-resolution biomedical imaging applications. Although it is possible to improve the resolution by using a higher magnification objective with larger NA instead of enlarging the illumination NA, the SBP is suppressed to some extent, making the FP technique less appealing, since the reduction of field-of-view (FOV) is much larger than the improvement of resolution in this FP platform. Herein, in this paper, we initially present a subwavelength resolution Fourier ptychography (SRFP) platform with a hemispherical digital condenser to provide high-angle programmable plane-wave illuminations of 0.95NA, attaining a 4x/0.1NA objective with the final effective imaging performance of 1.05NA at a half-pitch resolution of 244 nm with a wavelength of 465 nm across a wide FOV of 14.60 mm(2), corresponding to an SBP of 245 megapixels. Our work provides an essential step of FP towards high-NA imaging applications without sacrificing the FOV, making it more practical and appealing.

Accession Number: WOS:000452819800030

Conference Title: Conference on Quantitative Phase Imaging IV

Conference Date: JAN 28-30, 2018

Conference Location: San Francisco, CA

Conference Sponsors: SPIE, Tomocube, Inc, Phi Opt, Inc

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Pan, An 

O-7118-2015 

 

Lei, Ming 

JAD-1050-2023 

 

Yao, Baoli 

AAB-4606-2021 

 

Li, Maosen 

HTS-0568-2023 

 

Zhang, Yan 

 

0000-0001-6044-8120 

Li, Maosen 

 

0000-0001-9569-7311 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1492-5

 


 

Record 87 of 170

Title: Infrared Dim Target Detection Based on Multi-scale Space and Multidirectional Gradient Search

Author(s): Pan, JJ (Pan, Jiajia); Tian, Y (Tian, Yan)

Book Group Author(s): IEEE

Source: 2018 IEEE 3RD INTERNATIONAL CONFERENCE ON SIGNAL AND IMAGE PROCESSING (ICSIP)  Pages: 133-137  Published: 2018  

Abstract: According to the difference between gradients of targets and background in an infrared image, a multi-scale space and multidirectional gradients of search method for detecting infrared weak targets is presented. Before detecting the target, top-hat algorithm is used to preprocess the image to highlight weak targets and suppress large background areas. Then, using the normalized LOG (Laplacian Of Gaussion) scale space, the center coordinates and sizes of proposed objects in the image are obtained according to the different filter responses of the image pixels. An adaptive window is defined for each proposed target. Adaptive threshold of gradient is calculated based on the response image. Multidirectional gradients of search are performed based on the threshold. Next, the response image is binarized and the objects is detected after blob analysis. Theories and experiments indicate that our method can detect targets of different sizes under noisy infrared images.

Accession Number: WOS:000464883600026

Conference Title: IEEE 3rd International Conference on Signal and Image Processing (ICSIP)

Conference Date: JUL 13-15, 2018

Conference Location: SE Univ, Shenzhen, PEOPLES R CHINA

Conference Sponsors: IEEE

Conference Host: SE Univ

ISBN: 978-1-5386-6396-7

 


 

Record 88 of 170

Title: The study of free form optical elements corrected aberrations of optical system

Author(s): Pang, ZH (Pang Zhihai); Zou, GY (Zou Gangyi); Fan, XW (Fan Xuewu); Ma, Z (Ma Zhen); Chen, QF (Chen Qinfang)

Edited by: Ma X; Fan B; Wan Y; Russell A; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES: LARGE MIRRORS AND TELESCOPES  Book Series: Proceedings of SPIE  Volume: 10837  Article Number: UNSP 108370Y  DOI: 10.1117/12.2504891  Published: 2018  

Abstract: Based on the wavefront aberration theory and the coordinates transform, the free form optical induced aberration's characteristic of optical system has been analyses in this paper. The optical wavefront error and the free form surface can be express as Fringe Zernike polynomial; the free form optical on the surface (Stop or Entrance pupil or Exit pupil) affects all the field angles equally. If the surface is not the pupil of optical system, the aberration observed is different from the free form itself because the footprint of the beam for an off-axis field point only covers part of the surface. For the Fringe Zernike surface figure on a surface not at pupil, it will transform into lower order Fringe Zernike aberration in the optical system, the relationship between different Fringe Zernike aberration and field is different, and the location zero for the lower aberration always reside at the center of the field of view.

Accession Number: WOS:000459720200033

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies - Large Mirrors and Telescopes

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, Chinese Opt Soc, SPIE

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2317-0

 


 

Record 89 of 170

Title: Mechanical Design of Zoom Optical System for Deep Space Exploration

Author(s): Qian, CS (Qian Chongsen); Li, F (Li Fu); Yang, JF (Yang Jianfeng); Sun, Y (Sun Yi); Yang, WQ (Yang Wenqiang)

Edited by: Ma X; Fan B; Wan Y; Russell A; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES: LARGE MIRRORS AND TELESCOPES  Book Series: Proceedings of SPIE  Volume: 10837  Article Number: UNSP 1083704  DOI: 10.1117/12.2504761  Published: 2018  

Abstract: As one of the largest aerospace countries in the world, China's National Space Administration has officially launched the China Mars Exploration Project in 2016. The zoom lens, in contrast to a fixed focal length lens, has a continuously variable focal length that provides more intuitive information for probing activities. Therefore, it is particularly important to design a zoom lens and use it as a Mars probe imaging payload. In this paper, a zoom system is designed for the climatic environment of Mars and the condition requirements of the lander during transportation work. At the same time, different types of structures were discussed. Finally, a cam rotation mechanism was used in the zoom mechanism. Examining the complexity of the space thermal environment, the thermal characteristics of the system structure will have a great impact on the system performance. To prevent the adverse effects of different thermal expansion coefficients on the system over a wide operating temperature range, select the appropriate materials and the overall structure It is very important to carry out finite element analysis. In this paper, thermal deformation analysis of Aluminum Alloys, Titanium Alloys and Invar Steel materials was performed. The results show that the thermal deformation of Aluminum Alloy materials is maximum at the working temperature of -55 degrees C to + 55 degrees C, the thermal deformation of the Aluminum Alloy material is the largest, and the titanium alloy and Invar Steel are relatively small. Finally, the axial displacement is analyzed. The analysis results show that Invar Steel material has the smallest axial displacement. However, considering the weight reduction, it has met the rocket launch requirements. Finally, titanium alloy material is used as the system structural material, and the cam curve is compensated according to the axial displacement.

Accession Number: WOS:000459720200003

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies - Large Mirrors and Telescopes

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, Chinese Opt Soc, SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Yang, Jianfeng 

ABH-1554-2020 

0000-0002-0140-3675 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2317-0

 


 

Record 90 of 170

Title: Optimal design of cam curves for zoom lens

Author(s): Qiang, ZH (Qiang, Zihao); Wu, L (Wu, Li); Mei, C (Mei, Chao); Zhao, Y (Zhao, Yue)

Edited by: Yu Y; Zuo C; Qian K

Source: SIXTH INTERNATIONAL CONFERENCE ON OPTICAL AND PHOTONIC ENGINEERING (ICOPEN 2018)  Book Series: Proceedings of SPIE  Volume: 10827  Article Number: 108272V  DOI: 10.1117/12.2500614  Published: 2018  

Abstract: Zoom cam is a pivotal part used for driving every lens group in zoom lens, the design result of cam curve is decisive importance for motion property and system precision as well as system imaging in zoom system, therefore, zoom cam design is an important part of the zoom lens design, a fine cam performance is the basic requirements to reach lens design of image quality goal and optical zoom process. a new method is presented in this article, it adopts the method of piecewise processing to establish several common functions in steep interval so as to make the arc length non-uniform and to segment the arc length equally in the smooth curve. The initial cam curve of an optical system is optimized and analyzed, the results show that when the arc length is divided by the power function, the cam curve can be significantly improved, the pressure angle of the curve can be reduced, and the optimized curve is smooth and without inflection point, which can effectively improve the overall performance of the cam.

Accession Number: WOS:000450859600102

Conference Title: 6th International Conference on Optical and Photonic Engineering (icOPEN)

Conference Date: MAY 08-11, 2018

Conference Location: Shanghai, PEOPLES R CHINA

Conference Sponsors: Opt & Photon Soc Singapore, Chinese Laser Press, Shanghai Univ, Xian Technol Univ, Xian Univ Posts & Telecommunicat, Opt & Photon Soc Singapore China, Nanjing Univ Sci & Technol, Sichuan Univ, Japan Soc Elect Microscopy, Orbbec 3D, LIGHTSOFT, CISPES, China Int Optoelectron Expo

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2257-9

 


 

Record 91 of 170

Title: Corner Detection Based Automatic Segmentation of Bioresorbable Vascular Scaffold Struts in IVOCT Images

Author(s): Qin, XJ (Qin, Xianjing); Yao, LL (Yao, Linlin); Jin, QH (Jin, Qinhua); Jing, J (Jing, Jing); Chen, YD (Chen, Yundai); Cao, YH (Cao, Yihui); Li, JN (Li, Jianan); Zhu, R (Zhu, Rui)

Book Group Author(s): IEEE

Source: 2018 40TH ANNUAL INTERNATIONAL CONFERENCE OF THE IEEE ENGINEERING IN MEDICINE AND BIOLOGY SOCIETY (EMBC)  Book Series: IEEE Engineering in Medicine and Biology Society Conference Proceedings  Pages: 604-607  Published: 2018  

Abstract: Bioresorbable Vascular scaffold (BVS) is a promising type of stent in percutaneous coronary intervention. Struts apposition assessment is important to ensure the safety of implanted BVS. Currently, BVS struts apposition analysis in IVOCT images still depends on manual delineation of struts, which is labor intensive and time consuming. Automatic struts segmentation is highly desired to simplify and speed up quantitative analysis. However, it is difficult to segment struts accurately based on the contour, due to the influence of fractures inside strut and blood artifacts around strut. In this paper, a novel framework of automatic struts segmentation based on four corners is introduced, in which priori knowledge is utilized that struts have obvious feature of box-shape. Firstly, a cascaded AdaBoost classifier based on enriched haar-like features is trained to detect struts corners. Then, segmentation result can be obtained based on the four detected corners of each strut. Tested on five pullbacks consisting of 483 images with strut, our novel method achieved an average Dice's coefficient of 0.82 for strut segmentation areas. It concludes that our method can segment struts accurately and robustly. Furthermore, automatic struts malapposition analysis in clinical practice is feasible based on the segmentation results.

Accession Number: WOS:000596231901020

PubMed ID: 30440469

Conference Title: 40th Annual International Conference of the IEEE-Engineering-in-Medicine-and-Biology-Society (EMBC)

Conference Date: JUL 18-21, 2018

Conference Location: Honolulu, HI

Conference Sponsors: IEEE Engn Med & Biol

ISSN: 1557-170X

eISSN: 1558-4615

ISBN: 978-1-5386-3646-6

 


 

Record 92 of 170

Title: On-chip quantum optical frequency comb sources

Author(s): Reimer, C (Reimer, Christian); Kues, M (Kues, Michael); Roztocki, P (Roztocki, Piotr); Sciara, S (Sciara, Stefania); Cortés, LR (Cortes, Luis Romero); Wetzel, B (Wetzel, Benjamin); Zhang, YB (Zhang, Yanbing); Cino, A (Cino, Alfonso); Chu, ST (Chu, Sai T.); Little, BE (Little, Brent E.); Moss, DJ (Moss, David J.); Caspani, L (Caspani, Lucia); Azaña, J (Azana, Jose); Morandotti, R (Morandotti, Roberto)

Book Group Author(s): IEEE

Source: 2018 OPTICAL FIBER COMMUNICATIONS CONFERENCE AND EXPOSITION (OFC)  Published: 2018  

Abstract: Integrated optical frequency comb sources, based on nonlinear microring resonators, can be used to generate complex quantum states. In particular, we achieved multi-photon and high-dimensional entangled quantum states, as well as their coherent control.

Accession Number: WOS:000437286300204

Conference Title: Optical Fiber Communications Conference and Exposition (OFC)

Conference Date: MAR 11-15, 2018

Conference Location: San Diego, CA

Conference Sponsors: IEEE, AC Photon Inc, ACACIA Commun Inc, Alibaba Grp, Anritsu, Arrayed Fiberopt, ATOP, ColorChip, Corning, Effect Photon, EXFO, FINISAR, GoFoton, HTGD, Huawei, Infinera, Juniper Networks, Liverage, Mellanox Technologies, Menara Networks, New Opt Networks, Nextrom, NTT Elect, OIF, OZ Opt Ltd, Santec, Sanwa, Sumitomo Elect, Tektronix, VPIphotonics, XFS, XILINX

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Morandotti, Roberto 

AAU-4702-2020 

 

Wetzel, Benjamin 

E-9386-2016 

0000-0002-2691-0307 

Morandotti, Roberto 

U-6712-2019 

0000-0001-7717-1519 

Chu, Sai T 

D-3312-2014 

0000-0001-8263-8507 

Kues, Michael 

HPE-7088-2023 

0000-0001-5323-3850 

Cortés, Luis Romero 

H-6185-2018 

0000-0002-9534-4476 

Sciara, Stefania 

 

0000-0002-4740-9343 

 

ISBN: 978-1-943580-38-5

 


 

Record 93 of 170

Title: Design and test of a flexure mount for lightweight mirror

Author(s): Ren, GR (Ren Guo-rui); Li, C (Li Chuang); Pang, ZH (Pang Zhi-hai); Chu, CB (Chu Chang-bo); Zhang, HS (Zhang Hao-su); He, TB (He Tian-bing)

Edited by: Ma X; Fan B; Wan Y; Russell A; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES: LARGE MIRRORS AND TELESCOPES  Book Series: Proceedings of SPIE  Volume: 10837  Article Number: UNSP 108370B  DOI: 10.1117/12.2504940  Published: 2018  

Abstract: The 470mm lightweight primary mirror of a space telescope is made of ULE, and supported on a titanium hexapod. The hexapod consists of six bond pads, six titanium struts with flexures and three support parts. The hexapod provides a quasi-kinematic mount for the lightweight mirror, and the flexures are used to isolate optical elements from the mechanical and thermal deformations of the support structure, then the surface figure distortion of the mirror is minimized. In this paper, the finite element method is used to analyze the static and dynamic characteristics of the mirror assembly. Then, six pads are bonded to the mirror and the support hexapod is assembly. The vertical optical test of the primary mirror assembly is implemented. Vibration test of the mirror assembly is performed, and the test results are consistent with the results of the finite element analysis.

Accession Number: WOS:000459720200010

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies - Large Mirrors and Telescopes

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, Chinese Opt Soc, SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

li, chuang 

HNT-0863-2023 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2317-0

 


 

Record 94 of 170

Title: Multimode-fiber/scattering-medium computational optical endoscopic imaging based on digital wavefront modulation

Author(s): Ren, LY (Ren, Liyong); Zhuang, B (Zhuang, Bin); Zhao, GZ (Zhao, Guangzhi); Xu, CF (Xu, Chengfang); Geng, Y (Geng, Yi); Chen, H (Chen, Hui); He, ZQ (He, Zhengquan); Hu, BW (Hu, Baowen); Li, YL (Li, Yulin)

Edited by: Huang Y

Source: TENTH INTERNATIONAL CONFERENCE ON INFORMATION OPTICS AND PHOTONICS  Book Series: Proceedings of SPIE  Volume: 10964  Article Number: UNSP 109640F  DOI: 10.1117/12.2504224  Published: 2018  

Abstract: Light wave becomes extremely distorted when it passes through a turbid medium. Indeed, the inhomogeneity of scattering medium and the mode dispersion of multimode optical fiber (MMF) always distort the propagation of light waves since they divert the propagation direction and disorder the spatial relationship of rays from the object. This becomes a big challenge for the applications of biological tissues endoscopic imaging. To overcome this problem, many methods based on computational optical imaging schemes have been reported and such a research has become a hot topic in recent years. These methods include the computational ghost imaging, the digital phase conjugation, the speckle correlation, the wavefront shaping, and the optical transmission matrix, etc.
In this paper, we report our recent works on computational optical imaging based on digital wavefront modulation, which might be useful for the applications of endoscopy. On one hand, we propose a round-trip imaging method based on the optical transmission matrix of scattering medium, where the light wave is distorted twice. The object is recovered directly from the distorted output wave, while no scanning is required during the imaging process; one the other hand, by modulating the amplitude instead of the phase of the incident light wavefront, we propose a high-speed binary amplitude-only modulation method to focus and scan light through an MMF based on the digital micro-mirror device (DMD). This method can also be extended to focus and scan light at multiple planes along the axial direction by just modifying the input wavefront accordingly.

Accession Number: WOS:000456505500010

Conference Title: 10th International Conference on Information Optics and Photonics

Conference Date: JUL 08-11, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Laser Press, Tsinghua Univ, Int Soc Opt & Photon

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Ren, Liyong 

F-5518-2014 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2580-8

 


 

Record 95 of 170

Title: Scalable on-chip generation and coherent control of complex optical quantum states

Author(s): Roztocki, P (Roztocki, Piotr); Kues, M (Kues, Michael); Reimer, C (Reimer, Christian); Cortés, LR (Cortes, Luis Romero); Sciara, S (Sciara, Stefania); Wetzel, B (Wetzel, Benjamin); Zhang, YB (Zhang, Yanbing); Cino, A (Cino, Alfonso); Chu, ST (Chu, Sai T.); Little, BE (Little, Brent E.); Moss, DJ (Moss, David J.); Caspani, L (Caspani, Lucia); Azaña, J (Azana, Jose); Morandotti, R (Morandotti, Roberto)

Book Group Author(s): IEEE

Source: 2018 CONFERENCE ON LASERS AND ELECTRO-OPTICS (CLEO)  Book Series: Conference on Lasers and Electro-Optics  Published: 2018  

Abstract: Integrated quantum frequency combs provide access to multi-photon and high-dimensional entangled states, and their control via standard telecommunications components, and can thus open paths for reaching the state complexities required for meaningful quantum information science.

Accession Number: WOS:000526031001359

Conference Title: Conference on Lasers and Electro-Optics (CLEO)

Conference Date: MAY 13-18, 2018

Conference Location: San Jose, CA

Conference Sponsors: IEEE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Wetzel, Benjamin 

E-9386-2016 

0000-0002-2691-0307 

Chu, Sai T 

D-3312-2014 

0000-0001-8263-8507 

Morandotti, Roberto 

AAU-4702-2020 

 

Cortés, Luis Romero 

H-6185-2018 

0000-0002-9534-4476 

Kues, Michael 

HPE-7088-2023 

0000-0001-5323-3850 

Caspani, Lucia 

C-3777-2009 

0000-0003-2711-0448 

Sciara, Stefania 

 

0000-0002-4740-9343 

Cino, Alfonso Carmelo 

 

0000-0002-8116-3172 

 

ISSN: 2160-9020

ISBN: 978-1-9435-8042-2

 


 

Record 96 of 170

Title: The design of visible system for improving the measurement accuracy of imaging points

Author(s): Shan, QS (Shan, Qiu-sha); Li, G (Li, Gang); Zeng, L (Zeng, Luan); Liu, K (Liu, Kai); Yan, PP (Yan, Pei-pei); Duan, J (Duan, Jing); Jiang, K (Jiang, Kai)

Edited by: Guofan J; Guangjun Z

Source: FOURTH SEMINAR ON NOVEL OPTOELECTRONIC DETECTION TECHNOLOGY AND APPLICATION  Book Series: Proceedings of SPIE  Volume: 10697  Article Number: UNSP 106971L  DOI: 10.1117/12.2314915  Published: 2018  

Abstract: It has a widely applications in robot vision and 3D measurement for binocular stereoscopic measurement technology. And the measure precision is an very important factor, especially in 3D coordination measurement, high measurement accuracy is more stringent to the distortion of the optical system. In order to improving the measurement accuracy of imaging points, to reducing the distortion of the imaging points, the optical system must be satisfied the requirement of extra low distortion value less than 0.1 %, a transmission visible optical lens was design, which has characteristic of telecentric beam path in image space, adopted the imaging model of binocular stereo vision, and imaged the drone at the finity distance. The optical system was adopted complex double Gauss structure, and put the pupil stop on the focal plane of the latter groups, maked the system exit pupil on the infinity distance, and realized telecentric beam path in image space. The system mainly optical parameter as follows: the system spectrum rangement is visible light wave band, the optical effective length is f'=30mm, the relative aperture is 1/3, and the fields of view is 21 degrees. The final design results show that the RMS value of the spread spots of the optical lens in the maximum fields of view is 2.3 mu m, which is less than one pixel(3.45 mu m); the distortion value is less than 0.1%, the system has the advantage of extra low distortion value and avoids the latter image distortion correction; the proposed modulation transfer function of the optical lens is 0.58(@145 lp/mm), the imaging quality of the system is closed to the diffraction limited; the system has simply structure, and can satisfies the requirements of the optical indexes. Ultimately, based on the imaging model of binocular stereo vision was achieved to measuring the drone at the finity distance.

Accession Number: WOS:000435407700053

Conference Title: 4th Seminar on Novel Optoelectronic Detection Technology and Application

Conference Date: OCT 24-26, 2017

Conference Location: Nanjing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, Chinese Acad Engn, Div Informat & Elect Engn, Sci & Technol Low Light Level Night Vis Lab, N Night Vis Technol Co Ltd Corp

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1948-7

 


 

Record 97 of 170

Title: VCF: VELOCITY CORRELATION FILTER, TOWARDS SPACE-BORNE SATELLITE VIDEO TRACKING

Author(s): Shao, J (Shao, Jia); Du, B (Du, Bo); Wu, C (Wu, Chen); Wu, J (Wu, Jia); Hu, RM (Hu, Ruimin); Li, XL (Li, Xuelong)

Book Group Author(s): IEEE

Source: 2018 IEEE INTERNATIONAL CONFERENCE ON MULTIMEDIA AND EXPO (ICME)  Book Series: IEEE International Conference on Multimedia and Expo  Published: 2018  

Abstract: Tracking a moving target of interests from a space-borne satellite video is really a difficulty, since the target usually occupies only a few pixels in each frame of satellite video. Even it is a long train. Most state-of-the-art tracking algorithms mainly rely on luminance or color features, failing to handle this video tracking problem due to the extremely inadequate quality of targets features. To overcome this difficulty, we propose a velocity correlation filter (VCF), employing velocity feature and inertia mechanism to construct a kernel correlation filter for satellite video targets tracking. The velocity feature has a high discriminative ability to detect moving targets in satellite videos and the inertia mechanism can prevent model drift adaptively. Experimental results on three real satellite video datasets show our proposed approach outperforms state-of-the-art tracking methods with a more than 100 frames per second.

Accession Number: WOS:000714942100017

Conference Title: IEEE International Conference on Multimedia and Expo (IEEE ICME)

Conference Date: JUL 23-27, 2018

Conference Location: San Diego, CA

Conference Sponsors: IEEE, Acer, Adobe, Inter Digital, Qualcomm, Tencent, Huawei, Mediatek, Microsoft, Mitsubishi Elect, Netflix, Lenovo, UC San Diego, Univ So Calif, CAS, APSIPA Signal & Informat Proc, IEEE Comp Soc, IEEE Commun Soc, IEEE Signal Proc Soc

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Xuelong 

Z-3785-2019 

 

WU, Jia 

V-1766-2019 

0000-0001-9013-0818 

 

ISSN: 1945-7871

ISBN: 978-1-5386-1737-3

 


 

Record 98 of 170

Title: Medical Image Fusion Based on NSCT and Sparse Representation

Author(s): Shen, C (Shen, Chao); Gao, W (Gao, Wei); Ma, CW (Ma, Caiwen); Song, ZX (Song, Zongxi); Yin, F (Yin, Fei); Dan, LJ (Dan, Lijun); Wang, FT (Wang, Fengtao)

Edited by: Jiang X; Hwang JN

Source: TENTH INTERNATIONAL CONFERENCE ON DIGITAL IMAGE PROCESSING (ICDIP 2018)  Book Series: Proceedings of SPIE  Volume: 10806  Article Number: UNSP 108065M  DOI: 10.1117/12.2503126  Published: 2018  

Abstract: Image fusion is to get a fused image that contains all important information from source images of the same scene. Meanwhile, multi-scale transforms and sparse representation (SR) are the two most effective techniques for image fusion. However, the SR-based image fusion methods are time-consuming and do not take the structural information of the source images into consideration. In addition, different multi-scale transform-based methods have their inevitable defects waiting to be solved till now. Therefore, in this paper, a new image fusion method combining nonsubsampled contourlet transform (NSCT) with SR is proposed. A decision map for the low-frequency coefficients according to the high-frequency coefficients is made to overcome these problems. Furthermore, it can reduce the calculation cost of the fusion algorithm and retain the useful information of source images as far as possible. Comparing with conventional multi-scale transform based methods and sparse representation based methods with a fixed or learned dictionary, the proposed method has better fusion performance in the field of medical image fusion.

Accession Number: WOS:000452819600200

Conference Title: 10th International Conference on Digital Image Processing (ICDIP)

Conference Date: MAY 11-14, 2018

Conference Location: E China Normal Univ, Shanghai, PEOPLES R CHINA

Conference Sponsors: Shanghai Key Lab Multidimens Informat Proc, Int Assoc Comp Sci & Informat Technol

Conference Host: E China Normal Univ

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2200-5

 


 

Record 99 of 170

Title: Sensorless Vector Control of Three-Phase Permanent Magnet Synchronous Motor Based on Model Reference Adaptive System

Author(s): Shi, CX (Shi Chenxing); Wang, C (Wang Chen)

Book Group Author(s): IEEE

Source: 2018 IEEE 4TH INTERNATIONAL CONFERENCE ON CONTROL SCIENCE AND SYSTEMS ENGINEERING (ICCSSE 2018)  Pages: 178-182  Published: 2018  

Abstract: The speed sensorless vector control system not only saves the speed sensor but also reduces the size of the system device. It reduces the cost and improve the system's operating accuracy and reliability, which has strong practical value and economic benefits. Now many scholars have engaged in research in this area and achieved some results in simulation research, laying a solid foundation for practical applications basis. The model reference adaptive system(MRAS) was developed from the late 1950s which belongs to a type of adaptive system. From the structure, MRAS can be divided into three parts: adjustable model, reference model and adaptive law. The idea of MRAS identification is to use an expression that does not contain unknown parameters as the expected model, and an expression that contains the parameters to be identified is used in the adjustable model. And the two models have the same physical significance of output. Using two models of the difference in the output amount is achieved through the appropriate adaptive law to identify the parameters of the PMSM (Permanent Magnet Synchronous Motor). This paper designs a three-phase PMSM sensorless vector control system based on MRAS. The simulation model and results are given and analyzed.

Accession Number: WOS:000475666600032

Conference Title: IEEE 4th International Conference on Control Science and Systems Engineering (ICCSSE)

Conference Date: AUG 21-23, 2018

Conference Location: Wuhan, PEOPLES R CHINA

Conference Sponsors: IEEE

ISBN: 978-1-5386-7887-9

 


 

Record 100 of 170

Title: Nonlocal Patch Based t-SVD for Image Inpainting: Algorithm and Error Analysis

Author(s): Song, LC (Song, Liangchen); Du, B (Du, Bo); Zhang, LF (Zhang, Lefei); Zhang, LP (Zhang, Liangpei); Wu, J (Wu, Jia); Li, XL (Li, Xuelong)

Book Group Author(s): AAAI

Source: THIRTY-SECOND AAAI CONFERENCE ON ARTIFICIAL INTELLIGENCE / THIRTIETH INNOVATIVE APPLICATIONS OF ARTIFICIAL INTELLIGENCE CONFERENCE / EIGHTH AAAI SYMPOSIUM ON EDUCATIONAL ADVANCES IN ARTIFICIAL INTELLIGENCE  Book Series: AAAI Conference on Artificial Intelligence  Pages: 2419-2426  Published: 2018  

Abstract: In this paper, we propose a novel image inpainting framework consisting of an interpolation step and a low-rank tensor completion step. More specifically, we first initial the image with triangulation-based linear interpolation, and then we find similar patches for each missing-entry centered patch. Treating a group of patch matrices as a tensor, we employ the recently proposed effective t-SVD tensor completion algorithm with a warm start strategy to inpaint it. We observe that the interpolation step is such a rough initialization that the similar patch we found may not exactly match with the reference, so we name the problem as Patch Mismatch and analyse the error caused by it thoroughly. Our theoretical analysis shows that the error caused by Patch Mismatch can be decomposed into two components, one of which can be bounded by a reasonable assumption named local patch similarity, and another part is lower than that using matrix. Experiments on real images verify our method's superiority to the state-of-the-art inpainting methods.

Accession Number: WOS:000485488902061

Conference Title: 32nd AAAI Conference on Artificial Intelligence / 30th Innovative Applications of Artificial Intelligence Conference / 8th AAAI Symposium on Educational Advances in Artificial Intelligence

Conference Date: FEB 02-07, 2018

Conference Location: New Orleans, LA

Conference Sponsors: AAAI

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

WU, Jia 

V-1766-2019 

0000-0001-9013-0818 

Zhang, Lefei 

HHM-8850-2022 

0000-0003-0542-2280 

Li, Xuelong 

ABF-3381-2020 

 

Zhang, Lefei 

AAJ-5223-2020 

 

Song, Liangchen 

AAZ-9431-2021 

0000-0002-8366-5088 

Wu, Jia 

 

0000-0002-1371-5801 

 

ISSN: 2159-5399

eISSN: 2374-3468

ISBN: 978-1-57735-800-8

 


 

Record 101 of 170

Title: A precise method for adjusting the optical system of laser sub-aperture

Author(s): Song, X (Song Xing); Zhang, XM (Zhang Xue-min); Yang, JF (Yang Jianfeng); Xue, L (Xue Li)

Edited by: Guofan J; Guangjun Z

Source: FOURTH SEMINAR ON NOVEL OPTOELECTRONIC DETECTION TECHNOLOGY AND APPLICATION  Book Series: Proceedings of SPIE  Volume: 10697  Article Number: UNSP 106973G  DOI: 10.1117/12.2315315  Published: 2018  

Abstract: In order to adapt to the requirement of modern astronomical observation and warfare, the resolution of the space telescope is needed to improve, sub-aperture stitching imaging technique is one method to improve the resolution, which could be used not only the foundation and space-based large optical systems, also used in laser transmission and microscopic imaging. A large aperture main mirror of sub-aperture stitching imaging system is composed of multiple sub-mirrors distributed according to certain laws. All sub-mirrors are off-axis mirror, so the alignment of sub-aperture stitching imaging system is more complicated than a single off-axis optical system. An alignment method based on auto-collimation imaging and interferometric imaging is introduced in this paper, by using this alignment method, a sub-aperture stitching imaging system which is composed of 12 sub-mirrors was assembled with high resolution, the beam coincidence precision is better than 0.01mm, and the system wave aberration is better than 0.05 lambda.

Accession Number: WOS:000435407700114

Conference Title: 4th Seminar on Novel Optoelectronic Detection Technology and Application

Conference Date: OCT 24-26, 2017

Conference Location: Nanjing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, Chinese Acad Engn, Div Informat & Elect Engn, Sci & Technol Low Light Level Night Vis Lab, N Night Vis Technol Co Ltd Corp

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Yang, Jianfeng 

ABH-1554-2020 

0000-0002-0140-3675 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1948-7

 


 

Record 102 of 170

Title: Highlight Removal Method in Polarimetric Images Based on Stokes Parameters

Author(s): Sun, C (Sun Chen); Yang, FC (Yang Fan-chao)

Edited by: Guina M; Gong H; Lu J; Liu D

Source: OPTICAL SENSING AND IMAGING TECHNOLOGIES AND APPLICATIONS  Book Series: Proceedings of SPIE  Volume: 10846  Article Number: UNSP 1084612  DOI: 10.1117/12.2504312  Published: 2018  

Abstract: Aiming at the reflected highlight in remote sensing, we propose a new method of removing reflected highlight in polarimetric images. This method is based on reflection physical model, only requiring four polarization images and reflection angle; the original intensities of target which is under water or other crystals can be calculated by Stokes parameters accurately. Comparing to conventional polarization methods, experimental results show that proposed method can remove the glitters more effectively and reserve the original characteristic of target as much as possible. This new method does not need to restrict the specific observation angle and time so that it has more versatility. This new method improves reflected highlight image quality and it can be considered very suitable in water and polarization remote sensing.

Accession Number: WOS:000455303600036

Conference Title: Conference on Optical Sensing and Imaging Technologies and Applications / International Symposium on Optoelectronic Technology and Application (OTA) / Annual Conference of the Chinese-Society-for-Optical-Engineering (CSOE)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Dept Cooperat & Coordinat Ind Acad & Res, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2335-4

 


 

Record 103 of 170

Title: Curing shrinkage stress and deformation analysis of adhesive bonding large aperture mirror

Author(s): Sun, LJ (Sun Li-jun); Li, LB (Li Li-bo); Li, SY (Li Si-yuan); Zhao, Q (Zhao Qiang); Sun, J (Sun Jian); Wu, JQ (Wu Jun-qiang); Hu, BL (Hu Bing-liang)

Edited by: Ma X; Fan B; Wan Y; Russell A; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES: LARGE MIRRORS AND TELESCOPES  Book Series: Proceedings of SPIE  Volume: 10837  Article Number: UNSP 108370J  DOI: 10.1117/12.2505710  Published: 2018  

Abstract: The influence of adhesive bonding and curing on the accuracy of mirror surface shape was analyzed to realize low-stress assembly of large aperture mirror. Firstly, based on Hooke's law, a curing shrinkage stress equation was deduced, taking deformation of the mirror and support structure into account under the boundary condition of continuous edge bond, and key parameters effecting mirror deformation were obtained. Secondly, for a 514mm ULE spectrometer primary mirror with an inserts structure mosaiced and bonded on mirror-back, an equivalent linear expansion coefficient method was used for finite element modeling. The shrinkage stress at the bond edge of mirror and the mirror surface shape were analyzed. It's found that adhesive shrinkage has a significant effect on the mirror surface shape. Finally, the inserts structure of mirror assembly was optimized. In contrast to the non-optimum structure, the average stress of adhesive surface caused by adhesive curing shrinkage reduced from 0.28MPa to 0.18MPa, and the mirror surface shape (Root Mean Square, RMS) reduced from 0.029 lambda to 0.017 lambda. Finite element analysis results of the mirror assembly were given at last, surface shape accuracy (RMS) of mirror is 0.012 lambda under a load case of 1g gravity and 4. temperature rise, and the first-order natural frequency of the component is 216 Hz. The obtained results showed that a suitable optimized support structure can effectively relieve adhesive curing stress, and also satisfy the design requirements for both the static and dynamic stiffness.

Accession Number: WOS:000459720200018

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies - Large Mirrors and Telescopes

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, Chinese Opt Soc, SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Sun, Lijun 

E-8170-2015 

0000-0001-9488-0712 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2317-0

 


 

Record 104 of 170

Title: On-orbit Pointing Adjusting Mechanism of Full-disc Vector Magnetograph (FMG)

Author(s): Sun, ZG (Sun, Zhenguo); Wang, W (Wang, Wei); Shi, JF (Shi, Jinfeng); Xia, SY (Xia, Siyu); Li, XP (Li, Xupeng); Song, Y (Song, Yang)

Edited by: Ma X; Fan B; Wan Y; Russell A; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES: LARGE MIRRORS AND TELESCOPES  Book Series: Proceedings of SPIE  Volume: 10837  Article Number: UNSP 1083706  DOI: 10.1117/12.2504904  Published: 2018  

Abstract: This paper mainly introduces the motion analysis and the stress of some components of the full-disc vector magnetograph (FMG). As the connecting part of the FMG and the satellite platform, its main function is to adjust the optical axis of the FMG so that its imaging of the sun remains in the center of the CCD, thus achieving pitch and yaw of the optical axis. The maximum adjusting range is +/- 12' and the regulation precision is +/- 5 ''. The kinematic support is used to connect the optical box and the satellite platform. The two Monopods are respectively mounted on the two YZ planes of the optical cabin. The Bipod is mounted on the XZ plane of the optical capsule, which can adjust the pitch and yaw of the optical capsule. The movement of the Bipod is mainly powered by two motors. This paper simulates the force condition of the motor's screw sleeve to calculate the parameters of the motor. This article simulates the upward, downward, leftward and rightward movements of the pitch and yaw motions of the FMG's on-orbit pointing adjustment mechanism. Compared with the results of MATLAB theoretical calculations, the maximum error of the simulation results is 0.7969mm, and the minimum error is 0.0212mm, which basically accords with the ideal sports condition.

Accession Number: WOS:000459720200005

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies - Large Mirrors and Telescopes

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, Chinese Opt Soc, SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

shi, jin 

KDO-7906-2024 

 

shi, jin 

JCD-8826-2023 

 

Shi, JIn 

JYP-1805-2024 

 

Li, Jiawei 

JOJ-9277-2023 

 

Huang, YQ 

JOK-7580-2023 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2317-0

 


 

Record 105 of 170

Title: Adaptive Control for Spatial Turntable with Compensation of Cable-Harness Disturbance

Author(s): Tao, JM (Tao, Junming); Liu, J (Liu, Jun)

Book Group Author(s): IEEE

Source: 2018 IEEE 4TH INTERNATIONAL CONFERENCE ON CONTROL SCIENCE AND SYSTEMS ENGINEERING (ICCSSE 2018)  Pages: 31-36  Published: 2018  

Abstract: An adaptive control scheme is proposed to compensate the effects caused by cable-harness disturbance in spatial turntable. The proposed control tactics applied feedforward compensation method which is based on a PD structure and estimated value of the disturbance. Firstly, the estimation is given by a radial basis function(RBF) neural network with adaptive algorithm. Then, a control scheme is designed and the stability of system has been proved by Lyapunov theory. Finally, the simulation results demonstrate that the proposed control scheme effectively eliminated cable-harness disturbance.

Accession Number: WOS:000475666600007

Conference Title: IEEE 4th International Conference on Control Science and Systems Engineering (ICCSSE)

Conference Date: AUG 21-23, 2018

Conference Location: Wuhan, PEOPLES R CHINA

Conference Sponsors: IEEE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

liu, yang 

HQY-7531-2023 

 

 

ISBN: 978-1-5386-7887-9

 


 

Record 106 of 170

Title: High Power Vertical Stacked and Horizontal Arrayed Diode Laser Bar Development Based on Insulation Micro-Channel Cooling(IMCC) and Hard Solder Bonding Technology

Author(s): Wang, BX (Wang, Boxue); Jia, YT (Jia, Yangtao); Zhang, HY (Zhang, Haoyu); Jia, SY (Jia, Shiyin); Liu, JD (Liu, Jindou); Wang, WF (Wang, Weifeng); Liu, XS (Liu, Xingsheng)

Edited by: Glebov AL; Leisher PO

Source: COMPONENTS AND PACKAGING FOR LASER SYSTEMS IV  Book Series: Proceedings of SPIE  Volume: 10513  Article Number: UNSP 105130Q  DOI: 10.1117/12.2289259  Published: 2018  

Abstract: An insulation micro-channel cooling (IMCC) has been developed for packaging high power bar-based vertical stack and horizontal array diode lasers, which eliminates many issues caused in its congener packaged by commercial copper formed micro-channel cooler(MCC), such as coefficient of thermal expansion (CTE) mismatch between cooler and diode laser bar, high coolant quality requirement (DI water) and channel corrosion and electro-corrosion induced by DI water if the DI-water quality is not well maintained The IMCC cooler separates water flow route and electrical route, which allows tap-water as coolant without electro-corrosion and therefore prolongs cooler lifetime dramatically and escalated the reliability of these diode lasers. The thickness of ceramic and copper in an IMCC cooler is well designed to minimize the CTE mismatch between laser bar and cooler, consequently, a very low "SMILE" of the laser bar can be achieved for small fast axis divergence after collimation. In additional, gold-tin hard solder bonding technology was also developed to minimize the risk of solder electromigration at high current density and thermal fatigue under hard-pulse operation mode. Testing results of IMCC packaged diode lasers are presented in this report.

Accession Number: WOS:000432464600015

Conference Title: Conference on Components and Packaging for Laser Systems IV

Conference Date: JAN 30-FEB 01, 2018

Conference Location: San Francisco, CA

Conference Sponsors: SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Zeng, Yun 

JFK-6190-2023 

 

zhang, shuai 

IVU-7877-2023 

 

XU, Lin 

JDM-5554-2023 

0000-0003-1781-1638 

Lu, Jianhong 

IYT-3322-2023 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1512-0; 978-1-5106-1511-3

 


 

Record 107 of 170

Title: The effect of temperature distribution on reflectors in satellite optical terminals

Author(s): Wang, CJ (Wang Chenjie); Shangguan, AH (Shangguan Aihong); Chai, WY (Chai Wenyi); Hu, YM (Hu Yongming); Tao, WQ (Tao, Wenquan)

Edited by: Guofan J; Guangjun Z

Source: FOURTH SEMINAR ON NOVEL OPTOELECTRONIC DETECTION TECHNOLOGY AND APPLICATION  Book Series: Proceedings of SPIE  Volume: 10697  Article Number: UNSP 106975M  DOI: 10.1117/12.2309879  Published: 2018  

Abstract: Considering of orbital environments and working mode of the reflectors, thermal model of the 45-degree reflector assembly in satellite optical terminals on orbit is established to obtain temperature distribution of the reflectors(the extreme low temperature is -38.0 degrees C, the extreme high temperature is 32.2 degrees C and the max temperature gradient is 3.3 degrees C), meanwhile, a thermal-optical vacuum experiment based on the analysis results is conducted to check the effect of temperature distribution on reflectors. the results shows: if temperature of the reflector is >=-10 degrees C, the reflector shape accuracy PV will be better than lambda/3, and the RMS will be better than lambda/30 (lambda= 632.8nm), but it becomes worse and is not able to meet application requirement when the temperature decreases continuously(-40 degrees C similar to-10 degrees C). So it is necessary to design reasonable active heating loops for reflector assembly to guarantee its performance on orbit.

Accession Number: WOS:000435407700188

Conference Title: 4th Seminar on Novel Optoelectronic Detection Technology and Application

Conference Date: OCT 24-26, 2017

Conference Location: Nanjing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, Chinese Acad Engn, Div Informat & Elect Engn, Sci & Technol Low Light Level Night Vis Lab, N Night Vis Technol Co Ltd Corp

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1948-7

 


 

Record 108 of 170

Title: Moving space target detection algorithm based on trajectory similarity

Author(s): Wang, D (Wang, Dong); Wen, Y (Wen, Yan); Li, Z (Li, Zhao)

Edited by: Yuan XC; Shi K; Somekh MG

Source: ADVANCED OPTICAL IMAGING TECHNOLOGIES  Book Series: Proceedings of SPIE  Volume: 10816  Article Number: 108161B  DOI: 10.1117/12.2500962  Published: 2018  

Abstract: Space target detection technology based on visible light image sequence is of great significance to improve the defense capability of space debris. The path of an empty debris target is usually a straight line on the image. Firstly, this paper established the motion model of the space target according to its motion characteristics, and proposed a target initial screening method based on image sequence projection frame. In the initial screening target, a directed graph is established according to the constraints of motion, and the trajectory parameters are obtained simultaneously. Then calculating the similarity between the trajectory parameters, from which the track correlation matrix could be obtained. According to the result of correlation, the initial target is reduced to form a directed graph, and the selected node is the target point. Extensive experimental results show that the proposed method can effectively detect space moving objects, and the performance of the proposed algorithm is better than other algorithms.

Accession Number: WOS:000451758900017

Conference Title: Conference on Advanced Optical Imaging Technologies

Conference Date: OCT 12-13, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: SPIE, Chinese Opt Soc

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

LI, Xiang-Yang 

JZE-0275-2024 

 

Wang, Jing 

IQW-3496-2023 

0000-0002-8296-2961 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2231-9

 


 

Record 109 of 170

Title: Optical system design with wide field of view and high resolution based on monocentric multi-scale construction

Author(s): Wang, F (Wang Fang); Wang, H (Wang Hu); Xiao, N (Xiao Nan); Shen, Y (Shen Yang); Xue, YK (Xue Yaoke)

Edited by: Peng K; Pan J; Chu J

Source: YOUNG SCIENTISTS FORUM 2017  Book Series: Proceedings of SPIE  Volume: 10710  Article Number: 107102U  DOI: 10.1117/12.2316494  Published: 2018  

Abstract: With the development of related technology gradually mature in the field of optoelectronic information, it is a great demand to design an optical system with high resolution and wide field of view(FOV). However, as it is illustrated in conventional Applied Optics, there is a contradiction between these two characteristics. Namely, the FOV and imaging resolution are limited by each other. Here, based on the study of typical wide-FOV optical system design, we propose the monocentric multi-scale system design method to solve this problem. Consisting of a concentric spherical lens and a series of micro-lens array, this system has effective improvement on its imaging quality. As an example, we designed a typical imaging system, which has a focal length of 35mm and a instantaneous field angle of 14.7 '', as well as the FOV set to be 120 degrees. By analyzing the imaging quality, we demonstrate that in different FOV, all the values of MTF at 200lp/mm are higher than 0.4 when the sampling frequency of the Nyquist is 200lp/mm, which shows a good accordance with our design.

Accession Number: WOS:000451888100097

Conference Title: Young Scientists Forum

Conference Date: NOV 24-26, 2017

Conference Location: Shanghai, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Engn, Div Informat & Elect Engn, Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1978-4

 


 

Record 110 of 170

Title: Compressive Sensing Depth Video Coding via Gaussian Mixture Models and Object Edges

Author(s): Wang, K (Wang, Kang); Lan, XG (Lan, Xuguang); Li, X (Li, Xiangwei); Yang, MW (Yang, Meng); Zheng, NN (Zheng, Nanning)

Edited by: Zeng B; Huang Q; ElSaddik A; Li H; Jiang S; Fan X

Source: ADVANCES IN MULTIMEDIA INFORMATION PROCESSING - PCM 2017, PT I  Book Series: Lecture Notes in Computer Science  Volume: 10735  Pages: 96-104  DOI: 10.1007/978-3-319-77380-3_10  Published: 2018  

Abstract: In this paper, we propose a novel compressive sensing depth video (CSDV) coding scheme based on Gaussian mixture models (GMM) and object edges. We first compress several depth videos to get CSDV frames in the temporal direction. A whole CSDV frame is divided into a set of non-overlap patches in which object edges is detected by Canny operator to reduce the computational complexity of quantization. Then, we allocate variable bits for different patches based on the percentages of non-zero pixels in every patch. The GMM is used to model the CSDV frame patches and design product vector quantizers to quantize CSDV frames. The experimental results show that our compression scheme achieves a significant Bjontegaard Delta (BD)-PSNR improvement about 2-10 dB when compared to the standard video coding schemes, e.g. Uniform Scalar Quantization-Differential Pulse Code Modulation (USQ-DPCM) and H.265/HEVC.

Accession Number: WOS:000460422000010

Conference Title: 18th Pacific-Rim Conference on Multimedia (PCM)

Conference Date: SEP 28-29, 2017

Conference Location: Harbin, PEOPLES R CHINA

Conference Sponsors: IEEE CAS Beijing Chapter

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Lan, Xuguang 

N-8814-2019 

0000-0002-3422-944X 

 

ISSN: 0302-9743

eISSN: 1611-3349

ISBN: 978-3-319-77380-3; 978-3-319-77379-7

 


 

Record 111 of 170

Title: Optical Design of Off-Axis Three-Mirror System with Long Focal Length and Wide Field of View

Author(s): Wang, L (Wang Lei); Fan, XW (Fan Xuewu); Ni, DW (Ni Dongwei); Wang, YM (Wang Yuming)

Edited by: Ma X; Fan B; Wan Y; Russell A; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES: LARGE MIRRORS AND TELESCOPES  Book Series: Proceedings of SPIE  Volume: 10837  Article Number: UNSP 1083710  DOI: 10.1117/12.2504962  Published: 2018  

Abstract: High resolution, wild field of view (FOV) and high image quality are required in space and airborne remote sensing and space photography. However, the refraction system must use special materials or complex structures to eliminate the secondary spectrum, the two-mirror system possesses limited degrees of freedom in correcting aberrations, and the coaxial system has serious central shielding problem in the case of wild FOV. According to geometry optical theory and primary aberration theory, an off-axis three-mirror(TMA) system with long focal length and wide FOV was designed based on the coaxial three-mirror systems. The spectral range is visible light range, the focal length is 5000mm, the FOV is 10 degrees, and the relative aperture is 1: 12. The primary mirror and the third mirror are aspheric surfaces while the second mirror is quadratic surface. In this system, the central shielding problem is solved and the modulation transform function (MTF) is more than 0.6 at Nyquist spatial frequency 50lp/mm which is close to the diffraction limitation. Moreover, the full field diffusion plaque is controlled into 5 mu m. In all, the analysis results show that the image quality and each specification of the off-axis three-mirror system satisfy the application requirements.

Accession Number: WOS:000459720200035

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies - Large Mirrors and Telescopes

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, Chinese Opt Soc, SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

wangwangwang, yuanyaunyuan 

HHN-6432-2022 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2317-0

 


 

Record 112 of 170

Title: Design of the Front Window of Full-Disc Vector Magnetograph

Author(s): Wang, XF (Wang, Xingfeng); Li, F (Li, Fu); Chen, GQ (Chen, Guoqing); Lv, J (Lv, Juan); Lu, ZZ (Lu, Zhizhou); Yang, JF (Yang, Jianfeng)

Edited by: Ma X; Fan B; Wan Y; Russell A; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES: LARGE MIRRORS AND TELESCOPES  Book Series: Proceedings of SPIE  Volume: 10837  Article Number: UNSP 1083713  DOI: 10.1117/12.2504797  Published: 2018  

Abstract: Full-disc vector magnetograph (FMG) is one of the main loads in the Advanced Space-based Solar Observatory. FMG is used to realize scientific goals of observing full-disk vector magnetic field with center wavelength of 532.4 nm. The optical system of FMG consists of polarized optical system and imaging optical system, and the imaging optical system composes of the front window and telescope system. The front window has the capability for providing proper situation for scientific observation by absorbing high energy of solar irradiance coming from space while reflecting wavelength of non-scientific investigation beyond wavelength of 532.4 +/- 5 nm. The study analyzed the influence of complex space environment on optical glasses. As a result, the material of fused silica, while two pieces of flat glass parallel with 3mm separation structure and thickness of 15mm are determined. Finally, the results show that design for the front window meet the required specifications.

Accession Number: WOS:000459720200038

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies - Large Mirrors and Telescopes

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, Chinese Opt Soc, SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

WANG, HUI 

JFA-9683-2023 

 

Yang, Jianfeng 

ABH-1554-2020 

0000-0002-0140-3675 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2317-0

 


 

Record 113 of 170

Title: Research of Nitrate Concentration Prediction Based on GA

Author(s): Wang, XJ (Wang Xueji); Hu, BL (Hu Bingliang); Yu, T (Yu Tao); Liu, QS (Liu Qingsong); Li, HB (Li Hongbo); Fan, Y (Fan Yao)

Edited by: Li X; Wu L; Yao J; Yin H; Zhang R; Zhu Z

Source: OCEAN OPTICS AND INFORMATION TECHNOLOGY  Book Series: Proceedings of SPIE  Volume: 10850  Article Number: UNSP 1085008  DOI: 10.1117/12.2504459  Published: 2018  

Abstract: High concentration of nitrate will cause many problems, such as water eutrophication and compromise of human beings' health. A fast and stable approach was applied to predict nitrate concentration in solutions using the dual optical active correction continuous spectrum analyzer designed by our research group. Firstly, standard normal variate (SNV) was used to pretreat the spectral data. Then characteristic wavelengths of spectral curve were selected by using successive projections algorithm (SPA) and genetic algorithm (GA) respectively. Finally, partial least-squares regression (PLSR) was applied to build the spectral prediction model to predict nitrate concentration, and coefficient of determination (R-2) and root mean square error of prediction (RMSEP) were introduced as the evaluation indicators of prediction models. For SNV-GA-PLS model, R-2=0.9966 and RMSEP=0.1712, which outperformed than SNV-UVE-SPA-PLS model (R-2=0.9896, RMSEP=0.3952). It demonstrated that he model which selects spectral characteristic wavelengths by GA can decrease the complexity of prediction model building and ensure the accuracy as well. Hence, SNV-GA-PLS model can be used to predict nitrate concentration in water with quick and steady performance.

Accession Number: WOS:000455766200007

Conference Title: Conference on Ocean Optics and Information Technology / International Symposium on Optoelectronic Technology and Application (OTA)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Dept Cooperat & Coordinat Ind Acad & Res, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Hong-bo 

A-1199-2015 

 

Zhang, Can 

JUU-9511-2023 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2343-9

 


 

Record 114 of 170

Title: High reflecting film deposition of all-CFRP mirror

Author(s): Wang, YJ (Wang, Yongjie); Wu, XG (Wu, Xiaoge); Li, HC (Li, Haochuan); Xu, L (Xu, Liang); Ding, JT (Ding, Jiaoteng); Xie, YJ (Xie, Yongjie); Ma, Z (Ma, Zhen)

Edited by: Ma X; Fan B; Wan Y; Russell A; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES: LARGE MIRRORS AND TELESCOPES  Book Series: Proceedings of SPIE  Volume: 10837  Article Number: UNSP 108370X  DOI: 10.1117/12.2504867  Published: 2018  

Abstract: To improve the reflecting properties of all CFRP mirror, a high reflecting coating must be prepared on the mirror surface. In this paper, the effect of the roughness, film material and the deposition temperature on the reflecting rate was discussed. In the experiments, it was observed that the film exhibited higher reflecting rate on the smoother surface; meanwhile, the deposition rate must be controlled below the soften point of the surface replicated resin; if not, pits will generate on the surface and reduce reflecting rate. Ag film system exhibited higher reflecting rate than Al films. Finally, a multilayer film Ag and SiO2 was deposited on CFRP mirror, with a reflecting rate over 95% between 450nm and 800 nm.

Accession Number: WOS:000459720200032

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies - Large Mirrors and Telescopes

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, Chinese Opt Soc, SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Wang, Yongjie 

ABB-2543-2021 

0000-0003-2559-7619 

Wang, Yongjie 

AFK-1739-2022 

0000-0001-9448-471X 

Wang, Luyao 

JLL-2001-2023 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2317-0

 


 

Record 115 of 170

Title: Optical design of long transmission type ultraviolet detection system

Author(s): Wang, YM (Wang, Yuming); Fan, XW (Fan, Xuewu); Ni, DW (Ni, Dongwei); Wang, L (Wang, Lie)

Edited by: Ma X; Fan B; Wan Y; Russell A; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES: LARGE MIRRORS AND TELESCOPES  Book Series: Proceedings of SPIE  Volume: 10837  Article Number: UNSP 1083705  DOI: 10.1117/12.2504873  Published: 2018  

Abstract: Ultraviolet (UV) detection and imaging technology has developed rapidly in military applications due to its simple environment and clean background. Especially in the ultraviolet communication, UV alarm, UV detection and UV guidance has a unique advantage. A medium telephoto transmission type UV optical system was designed using optical software. This system consisting of two aspheric surfaces and one binary diffractive surface and the other 10 spherical surfaces is adopted to realize the long-wavelength infrared image design parameters: UV operating waveband of 240-300nm, focal length of 200mm, field of view (FOV) of 24.8 degree, the F number of 2, and total length of 210mm. By optimizing materials and distributing power properly the system characteristics have been greatly improved. After optimization, the MTF is higher than 0.7 at the 20lp/mm and the maximum RMS radius is only about 10 mu m, which is much smaller than pixel size of the detector whose pixel size is 13.5 mu mx13.5 mu m. The energy concentration in UV CCD receiving surface is greater than 82%. Under the premise that the system meets the UV warning and detection optical properties, the use of aspheric surfaces reduces aberrations, simplifies the structure. This system has high imaging quality and simple structure. In terms of warning, it has good concealment, small size and light weight advantages.

Accession Number: WOS:000459720200004

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies - Large Mirrors and Telescopes

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, Chinese Opt Soc, SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

wangwangwang, yuanyaunyuan 

HHN-6432-2022 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2317-0

 


 

Record 116 of 170

Title: Moving Target Detection and Tracking Based on Pyramid Lucas-Kanade Optical Flow

Author(s): Wang, Z (Wang, Zhen); Yang, XJ (Yang, Xiaojun)

Book Group Author(s): IEEE

Source: 2018 IEEE 3RD INTERNATIONAL CONFERENCE ON IMAGE, VISION AND COMPUTING (ICIVC)  Pages: 66-69  Published: 2018  

Abstract: In order to enable the optical flow to track larger and faster moving targets, pyramid Lucas-Kanade optical flow method is used to detect and track moving targets. First, detecting the corners which is easy to track, in order to improve the tracking accuracy, detected corners and then calculate the sub-pixel corner, and then the video in each frame of the image layered in the image pyramid to calculate the optical flow at the top corner, use the next pyramid as the starting point of the pyramid and repeat this process until the bottom pyramid image, which can overcome the Lucas-Kanade optical flow method cannot track faster and larger movements the shortcomings, to achieve the tracking of moving goals.

Accession Number: WOS:000448170000014

Conference Title: 3rd IEEE International Conference on Image, Vision and Computing (ICIVC)

Conference Date: JUN 27-29, 2018

Conference Location: Chongqing, PEOPLES R CHINA

Conference Sponsors: IEEE, Chongqing Univ Posts & Telecommunicat

ISBN: 978-1-5386-4991-6

 


 

Record 117 of 170

Title: A Fast Method for Searching the Best Matching Point of the Automatic Reconstruction of Focal Spot Measurement Using the Steepest Descent Method

Author(s): Wang, ZZ (Wang Zhengzhou); Wang, YC (Wang Yanchao); Li, G (Li Gang); Tan, M (Tan Meng); Wang, W (Wang Wei)

Edited by: Guina M; Gong H; Lu J; Liu D

Source: OPTICAL SENSING AND IMAGING TECHNOLOGIES AND APPLICATIONS  Book Series: Proceedings of SPIE  Volume: 10846  Article Number: UNSP 108460U  DOI: 10.1117/12.2503966  Published: 2018  

Abstract: The schlieren method was the most common method for measuring the far-field focal spot in high power laser facility. The reconstruction of far-field focal spot was used by manual and autocorrelation matching method usually. Although the problem of the automatic reconstruction of focal spot was solved by the autocorrelation matching method, it searched the best matching point in the whole region of the mainlobe cutting image, which would greatly reduce the efficiency of the reconstruction of far-field focal spot. To solve this problem, a fast method for searching the best matching point based on steepest descent method was proposed in this paper. Firstly, the mainlobe image and sidelobe image were cut into the mainlobe cutting image and sidelobe cutting image, which were named as cutzb and cutpb respectively, and the size of cutting images was 300*300. Then a new image that a circle the same size as the schlieren ball was dug from cutzb image was named as cutzb', while cutzb' and cutpb were converted into two column vectors respectively, and the SAM values of the two vectors are calculated. Secondly, calculated the gradients of 8 neighborhoods of current pixel, the next searching position was the neighborhood located in the direction of the largest gradient (the largest decrease) of 8 neighborhoods while using the steepest descent method. After all the SAM values of the two vectors that met requirement were searched. The upper left corner of mainlobe cutting image was the best matching point when the SAM value was minimal. Finally, according to the best matching point, the far-field focal spot was merged by the mainlobe image and sidelobe image, and the weighted average method was applied to fuse the stitching area of the merged image. The experimental results show that the method can not only realize the automatic reconstruction of the measurement of far-field focal spot while using the schlieren method, but also greatly improve the efficiency of the reconstruction of the far-field focal spot, and realize the accurate measurement of the far-field focal spot in the high dynamic range.
Schlieren method; Measurement of focal spot; Automatic reconstruction; The steepest descent method; The best matching point

Accession Number: WOS:000455303600028

Conference Title: Conference on Optical Sensing and Imaging Technologies and Applications / International Symposium on Optoelectronic Technology and Application (OTA) / Annual Conference of the Chinese-Society-for-Optical-Engineering (CSOE)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Dept Cooperat & Coordinat Ind Acad & Res, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Jiawei 

JOJ-9277-2023 

 

Wang, Pengyuan 

HHZ-8917-2022 

0000-0002-0651-1827 

Huang, YQ 

JOK-7580-2023 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2335-4

 


 

Record 118 of 170

Title: Text Recognition from Silent Lip Movement Video

Author(s): Wei, YD (Wei, Youda); Hu, XD (Hu, Xiaodong)

Book Group Author(s): IEEE

Source: 2018 IEEE 3RD INTERNATIONAL CONFERENCE ON SIGNAL AND IMAGE PROCESSING (ICSIP)  Pages: 168-171  Published: 2018  

Abstract: Lip reading, the ability to recognize text information from the movement of a speaker's mouth, is a difficult and challenging task. Recently, the end-to-end model that maps a variable-length sequence of video frames to text performs poorly in real life situation where people unintentionally move the lips instead of speaking. The goal of this work is to improve the performance of lip reading task in real life. The model proposed in this article consists of two networks that are visual to audio feature network and audio feature to text network Our experiments showed that the model proposed in this article can achieve 92.76% accuracy in lip reading task on the dataset that the unintentional lips movement was added.

Accession Number: WOS:000464883600032

Conference Title: IEEE 3rd International Conference on Signal and Image Processing (ICSIP)

Conference Date: JUL 13-15, 2018

Conference Location: SE Univ, Shenzhen, PEOPLES R CHINA

Conference Sponsors: IEEE

Conference Host: SE Univ

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Hu, Xiaoyu 

JPK-8482-2023 

 

Hu, Xiao 

GQI-0007-2022 

0000-0003-1128-4099 

 

ISBN: 978-1-5386-6396-7

 


 

Record 119 of 170

Title: Lensless Computational Imaging with Separable Coded Mask

Author(s): Wei, ZQ (Wei, Zhaoqi); Su, XQ (Su, Xiuqin); Zhu, WH (Zhu, Wenhua)

Book Group Author(s): IEEE

Source: 2018 IEEE 3RD INTERNATIONAL CONFERENCE ON IMAGE, VISION AND COMPUTING (ICIVC)  Pages: 614-617  Published: 2018  

Abstract: We use separable coded mask to replace the lenses, atop the image sensor-lensless imaging which can make system thinner. The imaging mathematic model is obtained by training a large number of separable patterns, and the original scene can be reconstructed by the computational imaging method, which can be used for the imaging of complex extended scenes under visible light. The method greatly reduces the thickness, volume, and weight of the imaging system. Currently, we build a prototype at visible wavelengths, successfully reconstruct images of 512 x 512 pixels in visible light. We will improve image quality and resolution to achieve the level of face recognition in future.

Accession Number: WOS:000448170000121

Conference Title: 3rd IEEE International Conference on Image, Vision and Computing (ICIVC)

Conference Date: JUN 27-29, 2018

Conference Location: Chongqing, PEOPLES R CHINA

Conference Sponsors: IEEE, Chongqing Univ Posts & Telecommunicat

ISBN: 978-1-5386-4991-6

 


 

Record 120 of 170

Title: SmartPen: A multifunction pen based on micro camera and gyroscope

Author(s): Wei, ZK (Wei, Zhenkun); Gong, T (Gong, Tao); Liu, J (Liu, Jie); Fan, JJ (Fan, Junjun)

Book Group Author(s): Assoc Comp Machinery

Source: PROCEEDINGS OF CHINESE CHI 2018: SIXTH INTERNATIONAL SYMPOSIUM OF CHINESE CHI (CHINESE CHI 2018)  Pages: 124-127  DOI: 10.1145/3202667.3202687  Published: 2018  

Abstract: At present, paper-based reading and writing are still important ways to learn and record knowledge. People usually rely on text entry on a keyboard to search for interpretations about the puzzled content while reading. So, based on the micro camera and inertial sensor, we designed SmartPen, a low-cost reading assistant tool supporting text or image capture, recognition, and search. The experimental results show that SmartPen can help users read publications conveniently and efficiently.

Accession Number: WOS:000492996100020

Conference Title: 6th International Symposium of Chinese CHI (Chinese CHI)

Conference Date: APR 21-22, 2018

Conference Location: Montreal, CANADA

Conference Sponsors: ICACHI, ACM SIGCHI, Assoc Comp Machinery

ISBN: 978-1-4503-6508-6

 


 

Record 121 of 170

Title: A Method of Designing Water Cooled Horizontal Array Diode Lasers for Uniform Junction Temperature

Author(s): Wu, DH (Wu, Di-Hai); Zah, CE (Zah, Chung-En); Liu, XS (Liu, Xingsheng)

Edited by: Zhu NH; Hofmann WH

Source: SEMICONDUCTOR LASERS AND APPLICATIONS VIII  Book Series: Proceedings of SPIE  Volume: 10812  Article Number: UNSP 108120U  DOI: 10.1117/12.2500701  Published: 2018  

Abstract: High power water-cooled horizontal array diode lasers are critical components in laser cutting systems for the compact line beam shape. Because of heat spreading effect of heatsink and thermal crosstalk effect among the laser bars, local thermal resistance for each bar is different, leading to unhomogeneous output power for each bar and non-uniform intensity distribution for laser line beam. In this paper, heat transfer and pressure drop as function of water flow rate in a single bent microchannel is firstly studied by computational fluid dynamics For reaching same local thermal resistance, numerical simulation is used to determine local heat transfer coefficient (HTC) distribution for microchannels within the horizontal array heatsink. The water inlet or outlet structure respectively in the upstream and downstream of distributed channels is designed to compensate the distributed pressure drop so that each flow path from inlet to outlet has same pressure drop. This work gave the basic thermal design rule for horizontal array diode lasers to reach uniform junction temperature.

Accession Number: WOS:000454443500021

Conference Title: Conference on Semiconductor Lasers and Applications VIII

Conference Date: OCT 12-13, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: SPIE, Chinese Opt Soc

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

ZAH, CHUNG-EN 

R-3016-2019 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2223-4

 


 

Record 122 of 170

Title: A Highly Versatile Microwave Photonic Filter Based on an Integrated Optical Frequency Comb Source

Author(s): Wu, JY (Wu, Jiayang); Xu, XY (Xu, Xingyuan); Nguyen, TG (Nguyen, Thach G.); Chu, ST (Chu, Sai T.); Little, BE (Little, Brent E.); Morandotti, R (Morandotti, Roberto); Mitchell, A (Mitchell, Arnan); Moss, DJ (Moss, David J.)

Book Group Author(s): IEEE

Source: 2018 CONFERENCE ON LASERS AND ELECTRO-OPTICS (CLEO)  Book Series: Conference on Lasers and Electro-Optics  Published: 2018  

Abstract: We experimentally demonstrate a highly versatile microwave photonic filter (MPF) based on Kerr optical comb generated by an integrated microring resonator (MRR). The MPF features improved Q factors, wideband tunability, and highly reconfigurable filtering shapes.

Accession Number: WOS:000526031002367

Conference Title: Conference on Lasers and Electro-Optics (CLEO)

Conference Date: MAY 13-18, 2018

Conference Location: San Jose, CA

Conference Sponsors: IEEE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Mitchell, Arnan 

C-5017-2008 

0000-0002-2463-2956 

Xu, Xingyuan 

JMQ-9851-2023 

 

Chu, Sai T 

D-3312-2014 

0000-0001-8263-8507 

Morandotti, Roberto 

AAU-4702-2020 

 

Xu, Xingyuan 

AAL-3295-2021 

 

Wu, Jiayang 

Q-8590-2019 

0000-0003-1115-610X 

Nguyen, Thach 

 

0000-0002-8409-5638 

Xu, Xingyuan 

 

0000-0002-8190-4700 

 

ISSN: 2160-9020

ISBN: 978-1-9435-8042-2

 


 

Record 123 of 170

Title: An Optimized Method Based on RANSAC for Fundamental Matrix Estimation

Author(s): Wu, WJ (Wu, Wenjiang); Liu, W (Liu, Wen)

Book Group Author(s): IEEE

Source: 2018 IEEE 3RD INTERNATIONAL CONFERENCE ON SIGNAL AND IMAGE PROCESSING (ICSIP)  Pages: 372-376  Published: 2018  

Abstract: Fundamental matrix estimation based on RANSAC will encounter the problems of computational inefficiency and low accuracy when outlier ratio is high. In this paper, an optimized method via modification of the RANSAC algorithm is proposed to solve these problems. First, an isolation forest-based algorithm is performed to detect outliers from putative SIFT correspondences according to distribution consistency of features in location, scale and orientation. Then, a number of obvious outliers are eliminated from putative correspondences, which will enhance the inlier ratio efficiently. Finally, fundamental matrix is estimated with the optimized set. Repeated experiments indicate that the proposed method has testified result in speed and accuracy.

Accession Number: WOS:000464883600072

Conference Title: IEEE 3rd International Conference on Signal and Image Processing (ICSIP)

Conference Date: JUL 13-15, 2018

Conference Location: SE Univ, Shenzhen, PEOPLES R CHINA

Conference Sponsors: IEEE

Conference Host: SE Univ

ISBN: 978-1-5386-6396-7

 


 

Record 124 of 170

Title: Mirrors fabricated with CFRP composites by replication technology

Author(s): Wu, XG (Wu, XiaoGe); Wang, YJ (Wang, YongJie); Xu, L (Xu, Liang); Ma, Z (Ma, Zhen)

Edited by: Ma X; Fan B; Wan Y; Russell A; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES: LARGE MIRRORS AND TELESCOPES  Book Series: Proceedings of SPIE  Volume: 10837  Article Number: UNSP 1083709  DOI: 10.1117/12.2504928  Published: 2018  

Abstract: To realize ultra- lightweight ratio, mirrors were fabricated with CFRP (carbon fiber reinforced plastic composites) by replication technology. The replication technology was aimed to improve surface accuracy. Though replication technique, the surface accuracy was improved to 0.098 lambda (lambda= 632.8nm, RMS), and the roughness of 1.9 nm (Ra) can be achieved. The CFRP mirror presented poor dimension stability, the surface accuracy increased gradually in air. In order to solve this problem, a polymer coating was carried on mirror surface. The polymer coating exhibited better dimension stability, the surface accuracy can be maintained under 0.15. for more than 200 days.

Accession Number: WOS:000459720200008

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies - Large Mirrors and Telescopes

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, Chinese Opt Soc, SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Wang, Yongjie 

AFK-1739-2022 

0000-0001-9448-471X 

Wang, Yongjie 

ABB-2543-2021 

0000-0003-2559-7619 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2317-0

 


 

Record 125 of 170

Title: Iterative optimization procedure based design of phase masks suitable for computational depth of field extension

Author(s): Xia, JJ (Xia, Jingjing); Zhang, L (Zhang, Ling); Zhao, H (Zhao, Hui); Fan, XW (Fan, Xuewu)

Edited by: Dai Q; Shimura T

Source: OPTOELECTRONIC IMAGING AND MULTIMEDIA TECHNOLOGY V  Book Series: Proceedings of SPIE  Volume: 10817  Article Number: UNSP 108170R  DOI: 10.1117/12.2500267  Published: 2018  

Abstract: In wave-front coded imaging system, the phase mask placed in the pupil plane of the imaging system aims to reshape the PSF (point spread function) or OTF (optical transfer function) to realize DOF (depth of field) extension. How to design a suitable phase mask to provide a highly controlled response of system PSF or OTF is crucial to computational imaging application. Traditionally, AF (ambiguity function) is a powerful tool to assess the DOF extension effect generated by phase masks with known phase function. However, in this paper, we investigate an iterative optimization based procedure to recover the unknown phase mask using AF in a backward way. First, a set of desired PSFs or OTFs at different defocus planes is combined together to construct an initial estimate of AF. Second, the corresponding mutual function is calculated through Fourier transform. Third, SVD (singular value decomposition) is applied to the mutual function. Fourth, only the term corresponding to the biggest eigenvalue is kept and inverse Fourier transform is used to generate a new estimate of AF. Fifth, the input desired OTFs are used to update the newly estimated AF. This procedure iterates until the OTFs extracted from the estimated AF are highly consistent with the input ones using the MSE (mean-square-error) as criterion. In the paper, we systematically study this powerful procedure using numerical simulation and investigate the probability of recovering the rectangular non-separable phase masks. After that, experiments are carried out to justify the effectiveness of the procedure.

Accession Number: WOS:000455325600022

Conference Title: Conference on Optoelectronic Imaging and Multimedia Technology V

Conference Date: OCT 11-12, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: SPIE, Chinese Opt Soc

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

zhang, ling 

AAT-1894-2020 

0000-0003-1748-1771 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2233-3

 


 

Record 126 of 170

Title: Review on the new technologies to improve the resolution of spatial optical remote sensor

Author(s): Xiang, M (Xiang, Meng); Li, C (Li, Chuang); Zhao, YY (Zhao, Yiyi); Hu, B (Hu, Bin)

Edited by: Ma X; Fan B; Wan Y; Russell A; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES: LARGE MIRRORS AND TELESCOPES  Book Series: Proceedings of SPIE  Volume: 10837  Article Number: UNSP 108370C  DOI: 10.1117/12.2504941  Published: 2018  

Abstract: Space optical remote sensors play an important role in earth observation, space situation awareness and astronomy exploration. The optical resolution of space remote sensing system is constantly improved. Several new techniques for realizing ultra-high resolution of spatial optical remote sensors are reviewed. The research status and application prospects of these new technologies are discussed, mainly including synthetic aperture optical system, Fourier ptychography and intensity correlation imaging. The critical technical problems of these new technologies in spacebased and ground-based optical remote sensing engineering are summed up.

Accession Number: WOS:000459720200011

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies - Large Mirrors and Telescopes

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, Chinese Opt Soc, SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Hu, Bin 

ACD-0145-2022 

0000-0003-3514-5413 

li, chuang 

HNT-0863-2023 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2317-0

 


 

Record 127 of 170

Title: TLR: TRANSFER LATENT REPRESENTATION FOR UNSUPERVISED DOMAIN ADAPTATION

Author(s): Xiao, P (Xiao, Pan); Du, B (Du, Bo); Wu, J (Wu, Jia); Zhang, LF (Zhang, Lefei); Hu, RM (Hu, Ruimin); Li, XL (Li, Xuelong)

Book Group Author(s): IEEE

Source: 2018 IEEE INTERNATIONAL CONFERENCE ON MULTIMEDIA AND EXPO (ICME)  Book Series: IEEE International Conference on Multimedia and Expo  Published: 2018  

Abstract: Domain adaptation refers to the process of learning prediction models in a target domain by making use of data from a source domain Many classic methods solve the domain adaptation problem by establishing a common latent space, which may cause the loss of many important properties across both domains. In this manuscript, we develop a novel method, transfer latent representation (TLR), to learn a better latent space. Specifically, we design an objective function based on a simple linear autoencoder to derive the latent representations of both domains. The encoder in the autoencoder aims to project the data of both domains into a robust latent space. Besides, the decoder imposes an additional constraint to reconstruct the original data, which can preserve the common properties of both domains and reduce the noise that causes domain shift. Experiments on cross-domain tasks demonstrate the advantages of TLR over competing methods.

Accession Number: WOS:000714942100077

Conference Title: IEEE International Conference on Multimedia and Expo (IEEE ICME)

Conference Date: JUL 23-27, 2018

Conference Location: San Diego, CA

Conference Sponsors: IEEE, Acer, Adobe, Inter Digital, Qualcomm, Tencent, Huawei, Mediatek, Microsoft, Mitsubishi Elect, Netflix, Lenovo, UC San Diego, Univ So Calif, CAS, APSIPA Signal & Informat Proc, IEEE Comp Soc, IEEE Commun Soc, IEEE Signal Proc Soc

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Zhang, Lefei 

HHM-8850-2022 

0000-0003-0542-2280 

Li, Xuelong 

Z-3785-2019 

 

WU, Jia 

V-1766-2019 

0000-0001-9013-0818 

Wu, Jia 

 

0000-0002-1371-5801 

 

ISSN: 1945-7871

ISBN: 978-1-5386-1737-3

 


 

Record 128 of 170

Title: Non-scanning 3D endoscopic imaging through a multimode optical fiber based on monochromatic transmission matrix

Author(s): Xu, CF (Xu, Chengfang); Zhuang, B (Zhuang, Bin); Geng, Y (Geng, Yi); Zhao, GZ (Zhao, Guangzhi); Chen, H (Chen, Hui); Wu, ZX (Wu, Zhaoxin); Ren, LY (Ren, Liyong)

Edited by: Huang Y

Source: TENTH INTERNATIONAL CONFERENCE ON INFORMATION OPTICS AND PHOTONICS  Book Series: Proceedings of SPIE  Volume: 10964  Article Number: UNSP 1096445  DOI: 10.1117/12.2506069  Published: 2018  

Abstract: Imaging by a multimode optical fiber (MMF) has attracted much attention because single MMF could be used as a thinner endoscope probe than traditional ones. One essential feature of the MMF endoscope probe is its endoscopic imaging mode. It is well known that clearly imaging through an MMF is somewhat difficult, this is due to the fact that light waves transmitting in an MMF will be modulated randomly because of the mode dispersion in it. What's worse, for endoscopic imaging case, such a random modulation effect will be suffered twice: on the way in for illuminating and on the way out for imaging. In this paper, by measuring the monochromatic transmission matrix (TM) of the MMF in the case of working under the endoscopic imaging mode, we realize an MMF-based round-trip imaging through phase-shifting interferometry measurements by use of a spatial light modulator. Experimental results indicate that the images of objects can be effectively recovered using the presented approach. It is found that this approach has several advantages. Firstly, it avoids scanning objects, thus leading to quickly imaging; Secondly, it can also recover 3D information of the objects from seriously distorted optical fields emerging from the MMF. We predict that this approach might be applied for single-fiber rapid 3D endoscopic imaging.

Accession Number: WOS:000456505500130

Conference Title: 10th International Conference on Information Optics and Photonics

Conference Date: JUL 08-11, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Laser Press, Tsinghua Univ, Int Soc Opt & Photon

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Ren, Liyong 

F-5518-2014 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2580-8

 


 

Record 129 of 170

Title: Design and Analysis of ATP Compound Axis Control System for Intersatellite Optical Communication

Author(s): Xu, SW (Xu, Siwang); Han, JF (Han, Junfeng)

Book Group Author(s): IEEE

Source: 2018 IEEE 4TH INTERNATIONAL CONFERENCE ON CONTROL SCIENCE AND SYSTEMS ENGINEERING (ICCSSE 2018)  Pages: 312-316  Published: 2018  

Abstract: ATP compound axis control system is an important component and key technology in the intersatellite optical communication system, which can effectively improve the tracking accuracy and system bandwidth of the photoelectric tracking system. In this paper, the principle and structure of the compound axis control system are introduced in detail, the bandwidth and error suppression ability of the system are analyzed. The simulation experiment of ATP compound axis control system is carried out by Matlab/Simulink, and the tracking precision of the system is less than 2 mu rad. The experimental results show that the ATP compound axis control system has the advantages of good dynamic performance, high tracking accuracy and strong error suppression ability.

Accession Number: WOS:000475666600057

Conference Title: IEEE 4th International Conference on Control Science and Systems Engineering (ICCSSE)

Conference Date: AUG 21-23, 2018

Conference Location: Wuhan, PEOPLES R CHINA

Conference Sponsors: IEEE

ISBN: 978-1-5386-7887-9

 


 

Record 130 of 170

Title: High-Order Microwave Photonic Intensity Differentiator Based on CMOS-Compatible Micro-Combs

Author(s): Xu, XY (Xu, Xingyuan); Wu, JY (Wu, Jiayang); Nguyen, TG (Nguyen, Thach G.); Chu, ST (Chu, Sai T.); Little, BE (Little, Brent E.); Morandotti, R (Morandotti, Roberto); Mitchell, A (Mitchell, Arnan); Moss, DJ (Moss, David J.)

Book Group Author(s): IEEE

Source: 2018 CONFERENCE ON LASERS AND ELECTRO-OPTICS (CLEO)  Book Series: Conference on Lasers and Electro-Optics  Published: 2018  

Abstract: We demonstrate a third-order microwave photonic intensity differentiator based on micro-combs generated by a CMOS-compatible integrated micro-ring resonator (MRR). The micro-combs serve as a multi-wavelength source, which reduced the cost, and complexity of the differentiator.

Accession Number: WOS:000526031002366

Conference Title: Conference on Lasers and Electro-Optics (CLEO)

Conference Date: MAY 13-18, 2018

Conference Location: San Jose, CA

Conference Sponsors: IEEE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Morandotti, Roberto 

AAU-4702-2020 

 

Xu, Xingyuan 

AAL-3295-2021 

 

Wu, Jiayang 

Q-8590-2019 

0000-0003-1115-610X 

Xu, Xingyuan 

JMQ-9851-2023 

 

Chu, Sai T 

D-3312-2014 

0000-0001-8263-8507 

Mitchell, Arnan 

C-5017-2008 

0000-0002-2463-2956 

Nguyen, Thach 

 

0000-0002-8409-5638 

Xu, Xingyuan 

 

0000-0002-8190-4700 

 

ISSN: 2160-9020

ISBN: 978-1-9435-8042-2

 


 

Record 131 of 170

Title: Integrated Optical Power Equalizer Based on a Dual-Polarization Micro-Ring Resonator

Author(s): Xu, XY (Xu, Xingyuan); Wu, JY (Wu, Jiayang); Nguyen, TG (Nguyen, Thach G.); Chu, ST (Chu, Sai T.); Little, BE (Little, Brent E.); Morandotti, R (Morandotti, Roberto); Mitchell, A (Mitchell, Arnan); Moss, DJ (Moss, David J.)

Book Group Author(s): IEEE

Source: 2018 CONFERENCE ON LASERS AND ELECTRO-OPTICS (CLEO)  Book Series: Conference on Lasers and Electro-Optics  Published: 2018  

Abstract: We demonstrate an optical power equalizer based on a dual-polarization micro-ring resonator. By controlling the light polarization, a large loss tunable range from -29.3 dB to 30 dB of the equalizer is experimentally achieved.

Accession Number: WOS:000526031002085

Conference Title: Conference on Lasers and Electro-Optics (CLEO)

Conference Date: MAY 13-18, 2018

Conference Location: San Jose, CA

Conference Sponsors: IEEE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Wu, Jiayang 

Q-8590-2019 

0000-0003-1115-610X 

Xu, Xingyuan 

JMQ-9851-2023 

 

Morandotti, Roberto 

AAU-4702-2020 

 

Chu, Sai T 

D-3312-2014 

0000-0001-8263-8507 

Mitchell, Arnan 

C-5017-2008 

0000-0002-2463-2956 

Xu, Xingyuan 

AAL-3295-2021 

 

Xu, Xingyuan 

 

0000-0002-8190-4700 

Nguyen, Thach 

 

0000-0002-8409-5638 

 

ISSN: 2160-9020

ISBN: 978-1-9435-8042-2

 


 

Record 132 of 170

Title: Design of Signal Processing Circuit Based on Piezoelectric Actuated Fast Steering Mirror

Author(s): Xuan, W (Xuan, Wang); Chen, W (Chen, Wang)

Book Group Author(s): IEEE

Source: 2018 IEEE 3RD INTERNATIONAL CONFERENCE ON SIGNAL AND IMAGE PROCESSING (ICSIP)  Pages: 463-467  Published: 2018  

Abstract: For piezoelectric ceramic driven fast steering mirrors (FSM), the use of an integrated strain transducer driver can reduce the negative effects of hysteresis characteristics and creep characteristics of piezoelectric ceramics, thereby improving the micro-displacement control accuracy. By analyzing the signal characteristics of the sensor, the displacement measuring principle of the resistance strain gauge displacement sensor is introduced. Design and implement conditioning circuits for strain-type displacement sensor signals including signal amplification modules, low-pass filtering modules, and signal-alignment circuits to obtain a voltage signal proportional to the change in displacement. Through theoretical calculation, physical modeling, simulation, and experimental verification, the designed sensor circuit was experimentally verified. The experimental results show that the effective electrical noise of the sensor signal processing circuit is 4.2mV; the resolution of the corresponding piezoelectric ceramic displacement sensor can reach 4.25nm; the bandwidth can reach 3.6kHz, which can effectively improve the bandwidth of the fast mirror control system and control precision.

Accession Number: WOS:000464883600090

Conference Title: IEEE 3rd International Conference on Signal and Image Processing (ICSIP)

Conference Date: JUL 13-15, 2018

Conference Location: SE Univ, Shenzhen, PEOPLES R CHINA

Conference Sponsors: IEEE

Conference Host: SE Univ

ISBN: 978-1-5386-6396-7

 


 

Record 133 of 170

Title: Optimal Design of a High Accuracy Photoelectric Auto-collimator based on Position Sensitive Detector

Author(s): Yan, PP (Yan, Pei-pei); Yang, YQ (Yang, Yong-qing); She, WJ (She, Wen-ji); Liu, K (Liu, Kai); Jiang, K (Jiang, Kai); Duan, J (Duan, Jing); Shan, QS (Shan, Qiusha)

Edited by: Guofan J; Guangjun Z

Source: FOURTH SEMINAR ON NOVEL OPTOELECTRONIC DETECTION TECHNOLOGY AND APPLICATION  Book Series: Proceedings of SPIE  Volume: 10697  Article Number: UNSP 1069714  DOI: 10.1117/12.2311411  Published: 2018  

Abstract: A kind of high accuracy Photo-electric auto-collimator based on PSD was designed. The integral structure composed of light source, optical lens group, Position Sensitive Detector (PSD) sensor, and its hardware and software processing system constituted. Telephoto objective optical type is chosen during the designing process, which effectively reduces the length, weight and volume of the optical system, as well as develops simulation-based design and analysis of the auto-collimator optical system. The technical indicators of auto-collimator presented by this paper are: measuring resolution less than 0.05 ''; a field of view is 2 omega = 0.4 degrees x 0.4 degrees; measuring range is +/- 5'; error of whole range measurement is less than0.2 ''; Measuring distance is 10m, which are applicable to minor-angle precise measuring environment. Aberration analysis indicates that the MTF close to the diffraction limit, the spot in the spot diagram is much smaller than the Airy disk; The total length of the telephoto lens is only 450mm by the design of the optical machine structure optimization. The autocollimator's dimension get compact obviously under the condition of the image quality is guaranteed.

Accession Number: WOS:000435407700038

Conference Title: 4th Seminar on Novel Optoelectronic Detection Technology and Application

Conference Date: OCT 24-26, 2017

Conference Location: Nanjing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, Chinese Acad Engn, Div Informat & Elect Engn, Sci & Technol Low Light Level Night Vis Lab, N Night Vis Technol Co Ltd Corp

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Yang, Jing 

JFK-4046-2023 

0009-0004-8274-9863 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1948-7

 


 

Record 134 of 170

Title: Wide-field and Large Aperture Optical System Design for Ground-based Photoelectric Detection

Author(s): Yan, PP (Yan Peipei); Yang, YQ (Yang Yongqing); She, WJ (She Wenji); Liu, K (Liu Kai); Jiang, K (Jiang Kai); Duan, J (Duan Jing); Shan, QS (Shan Qiusha)

Edited by: Ma X; Fan B; Wan Y; Russell A; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES: LARGE MIRRORS AND TELESCOPES  Book Series: Proceedings of SPIE  Volume: 10837  Article Number: UNSP 108370U  DOI: 10.1117/12.2513247  Published: 2018  

Abstract: Detection and recognition of space objects with ground-based photoelectric systems is one of the major technical ways for space situational awareness. During the past thirty years, there has been significant development of optical telescopes dedicated to wide-field surveys of time-dependent deep space phenomena, slow-moving near-earth objects (NEOs) and fast-moving earth-orbiting space debris. While telescope fields of view have gradually increased, a single technical approach has not emerged as the dominant design. To design an effective wide-field telescope for sky survey or space surveillance, It is necessary to carefully match the characteristics of the optical system (layout, aperture, focal ratio and modulation transfer function) with those of the observing site (sky brightness, transparency, seeing and elevation), the detector (pixel pitch, quantum efficiency, read rate and read noise), and the observing program (target brightness, target motion, observing strategy and feature extraction software). In this paper, we design a telescope with wide field of view (>= 2.5 degrees x3.5 degrees) and large aperture (1.1m). The focal length of the system is 1.5m, F/# is 1.36. Because of the small F-number and wide field of view, we choose the prime focus corrector structure which has single mirrors with refractive prime focus correctors. Moreover, the especial requirements of the Modulation Transfer Function (MTF), spot, energy concentration, and distortion etc. are all satisfied.

Accession Number: WOS:000459720200029

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies - Large Mirrors and Telescopes

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, Chinese Opt Soc, SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Yang, Jing 

JFK-4046-2023 

0009-0004-8274-9863 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2317-0

 


 

Record 135 of 170

Title: Denoising and dimensionality reduction based on PARAFAC decomposition for hyperspectral images

Author(s): Yan, RH (Yan Rong-hua); Peng, JY (Peng Jin-ye); Wen, DS (Wen De-sheng); Ma, DM (Ma Dong-mei)

Edited by: Guina M; Gong H; Lu J; Liu D

Source: OPTICAL SENSING AND IMAGING TECHNOLOGIES AND APPLICATIONS  Book Series: Proceedings of SPIE  Volume: 10846  Article Number: UNSP 1084624  DOI: 10.1117/12.2505370  Published: 2018  

Abstract: In hyperspectral image analysis, classification requires spectral dimensionality reduction (DR). Tensor decompositions have been successfully applied to joint noise reduction in spatial and spectral dimensions of hyperspectral images, such as parallel factor analysis (PARAFAC). However, the PARAFAC method does not reduce the dimension in the spectral dimension. To improve it, a new method was proposed in this paper, that is, combine PCA and PARAFAC to reduce both the dimension in the spectral dimension and the noise in the spatial and spectral dimensions. The experiment results indicate that the new method improves the classification compared with the previous methods.

Accession Number: WOS:000455303600073

Conference Title: Conference on Optical Sensing and Imaging Technologies and Applications / International Symposium on Optoelectronic Technology and Application (OTA) / Annual Conference of the Chinese-Society-for-Optical-Engineering (CSOE)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Dept Cooperat & Coordinat Ind Acad & Res, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Peng, Jin 

HZH-6965-2023 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2335-4

 


 

Record 136 of 170

Title: Efficient Self-Adaptive Image Deblurring Based on Model Parameter Optimization

Author(s): Yang, HY (Yang, Haoyuan); Su, XQ (Su, Xiuqin); Ju, CW (Ju, Chunwu); Wu, SB (Wu, Shaobo)

Book Group Author(s): IEEE

Source: 2018 IEEE 3RD INTERNATIONAL CONFERENCE ON IMAGE, VISION AND COMPUTING (ICIVC)  Pages: 384-388  Published: 2018  

Abstract: Natural images suffer from degradations in imaging system, and image blur is a major source of them. Most existing approaches aim to estimate a blur kernel via an alternating optimization method in multiscale space. However, in our practical project application, we need to deal with motion blurs come from moving conveyor belts. In this case, the degradation model and its orientation are known to us. In this paper, we propose a self-adaptive image deblurring method to deal with it. The model parameters are optimized by a heuristic algorithm, and the latent images are deblurred by a deconvolution technique based on l(1) -norm constraint. Simulation results show that our method not only acts on motion blur model, but also can deal with atmosphere turbulence model and defocus model, and the comparison results indicate that it outperforms others'. Furthermore, it is able to deal with motion blur in real scenes with high efficiency.

Accession Number: WOS:000448170000074

Conference Title: 3rd IEEE International Conference on Image, Vision and Computing (ICIVC)

Conference Date: JUN 27-29, 2018

Conference Location: Chongqing, PEOPLES R CHINA

Conference Sponsors: IEEE, Chongqing Univ Posts & Telecommunicat

ISBN: 978-1-5386-4991-6

 


 

Record 137 of 170

Title: A New Method for Compact Zoom Lens Design

Author(s): Yang, HB (Yang Huibing); Yang, HT (Yang Hongtao); Mei, C (Mei Chao)

Edited by: Yu Y; Zuo C; Qian K

Source: SIXTH INTERNATIONAL CONFERENCE ON OPTICAL AND PHOTONIC ENGINEERING (ICOPEN 2018)  Book Series: Proceedings of SPIE  Volume: 10827  Article Number: 108272R  DOI: 10.1117/12.2500485  Published: 2018  

Abstract: We present a new method to achieve compactness for zoom lens design with a high zoom ratio. In the method, initial parameters of lens system are solved with Gaussian optics Theory. And then the first-order quantities are assigned to lens modules. After obtaining the lens module zoom system, the real lens groups are successively designed to combine to form lens system. Compared to separately designed lens groups, the approach can give a better starting zoom lens for it has only 9 variables of each group to optimize. Based on the new method, the final design is a four-group zoom system with a focal length range of 10 to 200mm. The system has a variable aperture from 1/2.8 at wide field to 1/5.6 at narrow field. The Modulation Transfer Function(MTF) exceeds 40% at 100lp/mm of all zoom positions, over all fields. Wherefore it has a good imaging performance when used with a 1/3-inch CCD.

Accession Number: WOS:000450859600098

Conference Title: 6th International Conference on Optical and Photonic Engineering (icOPEN)

Conference Date: MAY 08-11, 2018

Conference Location: Shanghai, PEOPLES R CHINA

Conference Sponsors: Opt & Photon Soc Singapore, Chinese Laser Press, Shanghai Univ, Xian Technol Univ, Xian Univ Posts & Telecommunicat, Opt & Photon Soc Singapore China, Nanjing Univ Sci & Technol, Sichuan Univ, Japan Soc Elect Microscopy, Orbbec 3D, LIGHTSOFT, CISPES, China Int Optoelectron Expo

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2257-9

 


 

Record 138 of 170

Title: Formation of nanostructures on the surface of CIGS films by picosecond laser with different beam patterns

Author(s): Yang, HZ (Yang, Huizhu); Jiang, GD (Jiang, Gedong); Wang, WJ (Wang, Wenjun); Mei, XS (Mei, Xuesong); Li, M (Li, Ming)

Edited by: Wehrspohn RB; Sprafke AN

Source: PHOTONICS FOR SOLAR ENERGY SYSTEMS VII  Book Series: Proceedings of SPIE  Volume: 10688  Article Number: UNSP 1068814  DOI: 10.1117/12.2306814  Published: 2018  

Abstract: As direct band gap semiconductor, CIGS thin film solar cells has developed rapidly in recent years. Nano-ripples on transparent layer of CIGS solar cells can improve the light absorption. The photoelectric conversion efficiency improved and the thickness of solar cell decreased with the requirement of optical absorptivity. This study proposed a key technological point concerning the obtainment of perfect LIPSSs using picosecond laser with different beam pattern. Linear sweep in parallel to the laser polarization direction was performed using a Nd:VAN laser system with 10-ps Q-switched pulsed at a central wavelength of 532 nm with a repetition rate of 1 kHz. The nanostructure with different characteristics were obtained at different laser fluence and scanning speed which was focused with circular spot. The linear spot pattern can improve the processing efficiency greatly. In this way, three kind of morphologies were obtained successfully at the same parameter, which was useful for processing different kind of nanostructures. To our knowledge, it is the first time that we report the LIPSSs formed on CIGS absorber layers. Thus, the proposed technique can be considered to be a promising method for the laser machining of special nonmetal films.

Accession Number: WOS:000453619600010

Conference Title: Conference on Photonics for Solar Energy Systems VII

Conference Date: APR 23-25, 2018

Conference Location: Strasbourg, FRANCE

Conference Sponsors: SPIE, Strasbourg Europtimist, CNRS, Investissements Avenvir, iCube, Univ Strasbourg

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1903-6

 


 

Record 139 of 170

Title: A Regenerated Feature Extraction Method for Cross-modal Image Registration

Author(s): Yang, J (Yang, Jian); Wang, Q (Wang, Qi); Li, XL (Li, Xuelong)

Edited by: Ren J; Hussain A; Zheng J; Liu CL; Luo B; Zhao H; Zhao X

Source: ADVANCES IN BRAIN INSPIRED COGNITIVE SYSTEMS, BICS 2018  Book Series: Lecture Notes in Artificial Intelligence  Volume: 10989  Pages: 441-451  DOI: 10.1007/978-3-030-00563-4_43  Published: 2018  

Abstract: Cross-modal image registration is an intractable problem in computer vision and pattern recognition. Inspired by that human gradually deepen to learn in the cognitive process, we present a novel method to automatically register images with different modes in this paper. Unlike most existing registrations that align images by single type of features or directly using multiple features, we employ the "regenerated" mechanism cooperated with a dynamic routing to adaptively detect features and match for different modal images. The geometry-based maximally stable extremal regions (MSER) are first implemented to fast detect non-overlapping regions as the primitive of feature regeneration, which are used to generate novel control-points using salient image disks (SIDs) operator embedded by a sub-pixel iteration. Then a dynamic routing is proposed to select suitable features and match images. Experimental results on optical and multi-sensor images show that our method has a better accuracy compared to state-of-the-art approaches.

Accession Number: WOS:000865938200043

Conference Title: 9th International Conference on Brain-Inspired Cognitive Systems (BICS)

Conference Date: JUL 07-08, 2018

Conference Location: Xian, PEOPLES R CHINA

Conference Sponsors: Univ Strathclyde, Univ Stirling, IEEE Brain Initiat

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Yan, Jing 

JFA-6705-2023 

 

YAN, LING 

JXY-6904-2024 

 

Li, Xuelong 

Z-3785-2019 

 

Wang, Jin 

GYA-2019-2022 

 

Wang, Qi 

 

0000-0002-7028-4956 

 

ISSN: 0302-9743

eISSN: 1611-3349

ISBN: 978-3-030-00563-4; 978-3-030-00562-7

 


 

Record 140 of 170

Title: UNSUPERVISED FEATURE SELECTION WITH LOCAL STRUCTURE LEARNING

Author(s): Yang, S (Yang, Sheng); Nie, FP (Nie, Feiping); Li, XL (Li, Xuelong)

Book Group Author(s): IEEE

Source: 2018 25TH IEEE INTERNATIONAL CONFERENCE ON IMAGE PROCESSING (ICIP)  Book Series: IEEE International Conference on Image Processing ICIP  Pages: 3398-3402  Published: 2018  

Abstract: Conventional graph-based unsupervised feature selection approaches carry out the feature selection requiring two stages: first, constructing the data similarity matrix and next performing feature selection. In this way, the similarity matrix is invariably kept unchanged, totally separated from the process of feature selection and the performance of feature selection highly depends on the initially constructed similarity matrix. In order to address this problem, a novel unsupervised feature selection method is proposed in this paper where constructing similarity matrix and performing feature selection are together incorporated into a coherent model. Besides, the constructed similarity matrix has k connected components (k is the number of data clusters). At last, five state-of-the-art unsupervised feature selection methods are compared to validate the effectiveness of the proposed method.

Accession Number: WOS:000455181503103

Conference Title: 25th IEEE International Conference on Image Processing (ICIP)

Conference Date: OCT 07-10, 2018

Conference Location: Athens, GREECE

Conference Sponsors: Inst Elect & Electron Engneers, IEEE Signal Processing Soc

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

li, xiang 

GWM-6319-2022 

 

Li, Xuelong 

Z-3785-2019 

 

Nie, Feiping 

B-3039-2012 

 

Li, Xuelong 

ABF-3381-2020 

 

Nie, Feiping 

 

0000-0002-0871-6519 

 

ISSN: 1522-4880

ISBN: 978-1-4799-7061-2

 


 

Record 141 of 170

Title: A Low Frequency Denoising Algorithm of Optical Fiber Laser Hydrophone Based on Wavelet Transformation

Author(s): Yang, YH (Yang, Yahan); Hao, GY (Hao, Geyang); Liu, B (Liu, Bo); Wu, GJ (Wu, Guojun); Lv, P (Lv, Pei)

Edited by: Li X; Wu L; Yao J; Yin H; Zhang R; Zhu Z

Source: OCEAN OPTICS AND INFORMATION TECHNOLOGY  Book Series: Proceedings of SPIE  Volume: 10850  Article Number: UNSP 108500M  DOI: 10.1117/12.2505484  Published: 2018  

Abstract: Optical fiber laser hydrophone which has more research potentiality and value owing to higher acoustic pressure sensitivity, smaller size and lower difficulty of multiplexing. However the detecting capacity to low frequency signal of optical fiber laser hydrophone will be limited because of the low frequecy noise such as 1/f noise and thermal noise of optical fiber laser and pumped laser. In order to suppress these noises, the iterative discrete wavelet transformation algorithm was designed which used multi-scale trait of wavelet transform. The different spectral components of underwater acoustic signal were separated and the noises below 1kHz were eliminated on the basis of the target singal amplitude would not be weakened. The measured data acquisitive from anechoic tank showed that the algorithm reduced the noise below 1kHz nearly 50dB and the Singal to Noise Ratio(SNR) is impromed from 55.23dB to 84.05dB.

Accession Number: WOS:000455766200020

Conference Title: Conference on Ocean Optics and Information Technology / International Symposium on Optoelectronic Technology and Application (OTA)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Dept Cooperat & Coordinat Ind Acad & Res, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Wang, Jing 

IQW-3496-2023 

0000-0002-8296-2961 

Jiang, Yalin 

ITV-2565-2023 

0009-0003-3726-8828 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2343-9

 


 

Record 142 of 170

Title: Simulation Design of Space Target Tracking System based on Radial Motion Principle

Author(s): Yang, YQ (Yang, Yong-qing); Liu, P (Liu, Peng); Shen, WJ (Shen, Wen-ji); Han, JF (Han, Jun-feng)

Edited by: Guofan J; Guangjun Z

Source: FOURTH SEMINAR ON NOVEL OPTOELECTRONIC DETECTION TECHNOLOGY AND APPLICATION  Book Series: Proceedings of SPIE  Volume: 10697  Article Number: UNSP 106975K  DOI: 10.1117/12.2309650  Published: 2018  

Abstract: To support the planning of satellite orbit tracking and imaging experiment, and provide effective data for in-orbit test planning, the semi-physical simulation model of ground target tracking is established to simulate the target tracking process. First, this paper analyzes the typical work process of space target tracking system, established the spatial coordinates model of the space target LOS and satellite rendezvous process. Secondly, the mapping relationship between space target motion and tracking system is studied based on the principle of space radial motion principle. The semi-physical simulation's design principle and the system design scheme of space tracking are given by establishing the radial motion model of the target motion and tracking system. Finally, based on the analysis of the typical space target motion and the design of the semi physical simulation system, the simulation of the space target tracking process with the intersection distance of 60km and the moving speed of 4.2km/s is carried out. The simulation results show that This system can realize continuous tracking of space targets, when the system is stable, the miss distance is less than 0.5 pixels, Azimuth tracking velocity stability is 0.0174 degrees/s, the pitch tracking velocity stability is 0.0161 degrees/s. The test shows that the design principle of the simulation system is correct, and the closed-loop control process can be simulated effectively. This test can provide effective data supports for program analysis and control methods on orbit test, real-time monitoring, analysis and test of synchronous control countermeasures of fault verification.

Accession Number: WOS:000435407700186

Conference Title: 4th Seminar on Novel Optoelectronic Detection Technology and Application

Conference Date: OCT 24-26, 2017

Conference Location: Nanjing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, Chinese Acad Engn, Div Informat & Elect Engn, Sci & Technol Low Light Level Night Vis Lab, N Night Vis Technol Co Ltd Corp

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Yang, Jing 

JFK-4046-2023 

0009-0004-8274-9863 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1948-7

 


 

Record 143 of 170

Title: Enhanced four-wave mixing in graphene oxide coated waveguides

Author(s): Yang, YY (Yang, Yunyi); Wu, JY (Wu, Jiayang); Xu, XY (Xu, Xingyuan); Chu, ST (Chu, Sai T.); Little, BE (Little, Brent E.); Morandotti, R (Morandotti, Roberto); Jia, BH (Jia, Baohua); Moss, DJ (Moss, David J.)

Book Group Author(s): IEEE

Source: 2018 CONFERENCE ON LASERS AND ELECTRO-OPTICS (CLEO)  Book Series: Conference on Lasers and Electro-Optics  Published: 2018  

Abstract: We experimentally demonstrate enhanced four-wave mixing (FWM) in an integrated waveguide coated with graphene oxide (GO). Owing to the high Kerr nonlinearity of GO and strong mode overlap, we achieve similar to 9.5-dB enhancement in FWM conversion efficiency.

Accession Number: WOS:000526031003248

Conference Title: Conference on Lasers and Electro-Optics (CLEO)

Conference Date: MAY 13-18, 2018

Conference Location: San Jose, CA

Conference Sponsors: IEEE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Jia, Baohua 

HZI-9152-2023 

0000-0002-6703-477X 

Chu, Sai T 

D-3312-2014 

0000-0001-8263-8507 

Morandotti, Roberto 

AAU-4702-2020 

 

Xu, Xingyuan 

AAL-3295-2021 

 

Xu, Xingyuan 

JMQ-9851-2023 

 

Jia, Baohua 

AAW-4373-2020 

0000-0002-6703-477X 

Wu, Jiayang 

Q-8590-2019 

0000-0003-1115-610X 

Xu, Xingyuan 

 

0000-0002-8190-4700 

 

ISSN: 2160-9020

ISBN: 978-1-9435-8042-2

 


 

Record 144 of 170

Title: Corners Detection for Bioresorbable Vascular Scaffolds Segmentation in IVOCT Images

Author(s): Yao, LL (Yao, Linlin); Cao, YH (Cao, Yihui); Jin, QH (Jin, Qinhua); Jing, J (Jing, Jing); Chen, YD (Chen, Yundai); Li, JA (Li, Jianan); Zhu, R (Zhu, Rui)

Edited by: Frangi AF; Schnabel JA; Davatzikos C; AlberolaLopez C; Fichtinger G

Source: MEDICAL IMAGE COMPUTING AND COMPUTER ASSISTED INTERVENTION - MICCAI 2018, PT IV  Book Series: Lecture Notes in Computer Science  Volume: 11073  Pages: 552-560  DOI: 10.1007/978-3-030-00937-3_63  Published: 2018  

Abstract: Bioresorbable Vascular scaffold (BVS) is a promising type of stent in percutaneous coronary intervention. Struts apposition assessment is important to ensure the safety of implanted BVS. Currently, BVS struts apposition analysis in 2D IVOCT images still depends on manual delineation of struts, which is labor intensive and time consuming. Automatic struts segmentation is highly desired to simplify and speed up quantitative analysis. However, it is difficult to segment struts accurately based on the contour, due to the influence of fractures inside strut and blood artifacts around strut. In this paper, a novel framework of automatic struts segmentation based on four corners is introduced, in which prior knowledge is utilized that struts have obvious feature of box-shape. Firstly, a cascaded AdaBoost classifier based on enriched haar-like features is trained to detect struts corners. Then, segmentation result can be obtained based on the four detected corners of each strut. Tested on the same five pullbacks consisting of 480 images with strut, our novel method achieved an average Dice's coefficient of 0.85 for strut segmentation areas, which is increased by about 0.01 compared to the state-of-the-art. It concludes that our method can segment struts accurately and robustly and has better performance than the state-of-the-art. Furthermore, automatic struts malapposition analysis in clinical practice is feasible based on the segmentation results.

Accession Number: WOS:000477769100063

Conference Title: 21st International Conference on Medical Image Computing and Computer-Assisted Intervention (MICCAI) / 8th Eurographics Workshop on Visual Computing for Biology and Medicine (VCBM) / International Workshop on Computational Diffusion MRI (CDMRI)

Conference Date: SEP 16-21, 2018

Conference Location: Granada, SPAIN

Conference Sponsors: NVIDIA Inc, Siemens Healthineers GmbH, Guangzhou Shiyuan Elect Co Ltd, Subtle Med Inc, Arterys Inc, Claron Technol Inc, ImSight Inc, ImFusion GmbH, Medtron Plc, Depwise Inc, Carl Zeiss AG, Eurographics, Med Image Comp & Comp Assisted Intervent

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

, Linlin Yao 

 

0000-0002-7252-3834 

 

ISSN: 0302-9743

eISSN: 1611-3349

ISBN: 978-3-030-00937-3; 978-3-030-00936-6

 


 

Record 145 of 170

Title: Highly Stable Optical Vector Analysis Based on Pound-Drever-Hall Technique for Fabry-Perot Interferometers Measurement

Author(s): Ye, L (Ye, Long); Chen, ZH (Chen, Zenghui); Dai, J (Dai, Jian); Zhang, T (Zhang, Tian); Xu, K (Xu, Kun)

Book Group Author(s): IEEE

Source: 2018 ASIA COMMUNICATIONS AND PHOTONICS CONFERENCE (ACP)  Book Series: Asia Communications and Photonics Conference and Exhibition  Published: 2018  

Abstract: We propose and experimentally demonstrate an optical vector analyzer based on symmetric optical double-sideband modulation and Pound-Drever-Hall technique. The measured frequency responses of the Fabry-Perot interferometer are consistent in 90 minutes.

Accession Number: WOS:000459847900097

Conference Title: Asia Communications and Photonics Conference (ACP)

Conference Date: OCT 26-29, 2018

Conference Location: Hangzhou, PEOPLES R CHINA

ISSN: 2162-108X

ISBN: 978-1-5386-6158-1

 


 

Record 146 of 170

Title: Lossless compression of large aperture static imaging spectrometer based on CCSDS-123

Author(s): Yu, L (Yu, Lu); Liu, XB (Liu, Xuebin); Li, HB (Li, Hongbo); Liu, GZ (Liu, Guizhong)

Edited by: Zhang X; Zhang J; Sang H

Source: MIPPR 2017: MULTISPECTRAL IMAGE ACQUISITION, PROCESSING, AND ANALYSIS  Book Series: Proceedings of SPIE  Volume: 10607  Article Number: UNSP 106070V  DOI: 10.1117/12.2288314  Published: 2018  

Abstract: A new method for the lossless compression of the interferometer hyperspectral instrument Large Aperture Static Imaging Spectrometer (LASTS) data is presented in this paper. Differs from traditional hyperspectral instrument, the image captured by the two dimensional CCD detector of LASIS is no longer a normal image, but the two spatial information of the scene superimposed with interference fringes of equal thickness. There is a translation motion of the spatial information among each frame of LASIS data cube. Based on these unique data characteristics of LASIS and the recently presented CCSDS-123 lossless multispectral & Hyperspectral image compression standard, an improved predictor is designed for the prediction of LASIS data while using the standard We perform several experiments on real data acquired by LASIS to investigate the performance of the proposed predictor. Experimental results show that the proposed predictor gives about 27.5% higher compression ratio than the default predictor of CCSDS-123 for lossless compression of LASIS data. In addition, the appropriate choice of several parameters of the proposed predictor are presented according to the experimental results.

Accession Number: WOS:000432539100030

Conference Title: 10th International Symposium on Multispectral Image Processing and Pattern Recognition (MIPPR) - Multispectral Image Acquisition, Processing, and Analysis (MIPPR)

Conference Date: OCT 28-29, 2017

Conference Location: Xiangyang, PEOPLES R CHINA

Conference Sponsors: Huazhong Univ Sci & Technol, Hubei Univ Arts & Sci, Natl Key Lab Sci and Technol Multi Spectral Informat Proc, Hubei Assoc Automat

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Hong-bo 

A-1199-2015 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1718-6; 978-1-5106-1717-9

 


 

Record 147 of 170

Title: Image Matching Algorithm with Color Information based on SIFT

Author(s): Yu, XY (Yu, Xiaoyong); Lei, H (Lei, Hao); Du, YF (Du, Yunfei); Li, BP (Li, Baopeng); Yuan, XB (Yuan, Xiaobin); Gao, W (Gao, Wei); Song, ZX (Song, Zongxi); Zheng, PY (Zheng, Peiyun)

Edited by: Jiang X; Hwang JN

Source: TENTH INTERNATIONAL CONFERENCE ON DIGITAL IMAGE PROCESSING (ICDIP 2018)  Book Series: Proceedings of SPIE  Volume: 10806  Article Number: UNSP 108062E  DOI: 10.1117/12.2502820  Published: 2018  

Abstract: Image matching is an important topic in the field of computer vision, in view of high robustness and accuracy, SIFT or the improved methods based on SIFT is generally used for image matching algorithms. The traditional SIFT method is implemented on grayscale images without regard to the color information of images, which may cause decreasing of the matching points and reduction of the matching accuracy. Prevailing color descriptors can effectively add color information into SIFT, however dramatically increase the complexity of algorithm. In this paper, a novel approach is proposed to take advantage of the color information for image matching based on SIFT. The proposed algorithm uses the gradient information of color channel as the compensation of luminance channel, which can effectively enhance the color information with SIFT. Experimental results show that the number of feature points and matching accuracy can be significantly promoted, while the complexity and performance of image matching algorithm are well trade-off.

Accession Number: WOS:000452819600085

Conference Title: 10th International Conference on Digital Image Processing (ICDIP)

Conference Date: MAY 11-14, 2018

Conference Location: E China Normal Univ, Shanghai, PEOPLES R CHINA

Conference Sponsors: Shanghai Key Lab Multidimens Informat Proc, Int Assoc Comp Sci & Informat Technol

Conference Host: E China Normal Univ

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

lei, hao 

IYJ-8690-2023 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2200-5

 


 

Record 148 of 170

Title: ROBUST PCANET FOR HYPERSPECTRAL IMAGE CHANGE DETECTION

Author(s): Yuan, ZH (Yuan, Zhenghang); Wang, Q (Wang, Qi); Li, XL (Li, Xuelong)

Book Group Author(s): IEEE

Source: IGARSS 2018 - 2018 IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM  Book Series: IEEE International Symposium on Geoscience and Remote Sensing IGARSS  Pages: 4931-4934  Published: 2018  

Abstract: Deep learning is an effective tool for handling high-dimensional data and modeling nonlinearity, which can tackle the hyperspectral data well. Usually deep learning methods need a large number of training samples. However, there is no labeled data for training in change detection (CD). Considering these, this paper develops an unsupervised Robust PCA network (RPCANet) for hyperspectral image CD task. The main contributions of this work are twofold: 1) An unsupervised convolutional neural networks named RPCANet is proposed to handle the hyperspectral image CD; 2) An effective CD framework using the RPCANet and change vector analysis (CVA) is designed to achieve better CD performance with more powerful features. Experimental results on real hyperspectral data sets demonstrate the effectiveness of the proposed method.

Accession Number: WOS:000451039804212

Conference Title: 38th IEEE International Geoscience and Remote Sensing Symposium (IGARSS)

Conference Date: JUL 22-27, 2018

Conference Location: Valencia, SPAIN

Conference Sponsors: Inst Elect & Elect Engineers, Inst Elect & Elect Engineers Geoscience & Remote Sensing Soc, European Space Agcy

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

wang, qi 

ITT-9652-2023 

 

lin, qing 

JED-5250-2023 

 

Yan, Jing 

JFA-6705-2023 

 

li, xiang 

GWM-6319-2022 

 

Li, Xuelong 

Z-3785-2019 

 

Li, Xuelong 

ABF-3381-2020 

 

Wang, Qi 

 

0000-0002-7028-4956 

 

ISSN: 2153-6996

ISBN: 978-1-5386-7150-4

 


 

Record 149 of 170

Title: Moving object detection in videos from hand-held camera

Author(s): Zhang, CL (Zhang, Chenlu); Ge, W (Ge, Wei); Xue, B (Xue, Bin)

Edited by: Jiang X; Hwang JN

Source: TENTH INTERNATIONAL CONFERENCE ON DIGITAL IMAGE PROCESSING (ICDIP 2018)  Book Series: Proceedings of SPIE  Volume: 10806  Article Number: UNSP 1080611  DOI: 10.1117/12.2502989  Published: 2018  

Abstract: Videos taken by hand-held camera easily contain both motion and jitter, which can result in a large number of false detections of moving object detection and achieve poor performance. In this paper, we propose a moving object detection algorithm adapted to videos from hand-held camera. The proposed algorithm uses the optical flow method to perform motion estimation and motion compensation on the videos. So the interferences caused by hand-held camera can be reduced. Then we establish background model to detect the moving object. The proposed algorithm is verified with videos from hand-held camera and compared with several state-of-the-art algorithms. Experimental results demonstrate that the proposed algorithm is effective for moving object detection in videos from hand-held camera.

Accession Number: WOS:000452819600036

Conference Title: 10th International Conference on Digital Image Processing (ICDIP)

Conference Date: MAY 11-14, 2018

Conference Location: E China Normal Univ, Shanghai, PEOPLES R CHINA

Conference Sponsors: Shanghai Key Lab Multidimens Informat Proc, Int Assoc Comp Sci & Informat Technol

Conference Host: E China Normal Univ

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2200-5

 


 

Record 150 of 170

Title: OPTIMAL NEIGHBORING RECONSTRUCTION FOR HYPERSPECTRAL BAND SELECTION

Author(s): Zhang, FH (Zhang, Fahong); Wang, Q (Wang, Qi); Li, XL (Li, Xuelong)

Book Group Author(s): IEEE

Source: IGARSS 2018 - 2018 IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM  Book Series: IEEE International Symposium on Geoscience and Remote Sensing IGARSS  Pages: 4709-4712  Published: 2018  

Abstract: Band selection, as an effective and popular dimensional reduction methods for hyperspectral image (HSI), has raised wide attention in recent years. In this paper, we propose a novel band selection method called optimal neighboring reconstruction (ONR). Compared to conventional methods, ONR mainly has following advantages. 1) It is globally optimal, which means the best combination of bands towards the designed objective function can be achieved. 2) It sufficiently exploits the neighboring structure among bands, so can effectively reduce the redundancy while maintaining the discrimination among bands. Experiments on three real data sets show that the proposed method has excellent performance.

Accession Number: WOS:000451039804162

Conference Title: 38th IEEE International Geoscience and Remote Sensing Symposium (IGARSS)

Conference Date: JUL 22-27, 2018

Conference Location: Valencia, SPAIN

Conference Sponsors: Inst Elect & Elect Engineers, Inst Elect & Elect Engineers Geoscience & Remote Sensing Soc, European Space Agcy

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Xuelong 

Z-3785-2019 

 

li, xiang 

GWM-6319-2022 

 

Li, Xuelong 

ABF-3381-2020 

 

Yan, Jing 

JFA-6705-2023 

 

Wang, Qi 

 

0000-0002-7028-4956 

Zhang, Fahong 

 

0000-0003-0209-8841 

 

ISSN: 2153-6996

ISBN: 978-1-5386-7150-4

 


 

Record 151 of 170

Title: Thermal Design and Verification for a Small Space Remote Sensing Camera

Author(s): Zhang, GP (Zhang Gaopeng); Yang, HT (Yang Hongtao); Zhang, Z (Zhang Zhi); Gao, B (Gao Bo); Fei, JQ (Fei Jiaqi); Chen, WN (Chen Weining); Shi, K (Shi Kui); Zhang, Y (Zhang Yue); Peng, JW (Peng Jianwei)

Edited by: Guina M; Gong H; Lu J; Liu D

Source: OPTICAL SENSING AND IMAGING TECHNOLOGIES AND APPLICATIONS  Book Series: Proceedings of SPIE  Volume: 10846  Article Number: UNSP 108461Z  DOI: 10.1117/12.2505315  Published: 2018  

Abstract: Thermal control and temperature uniformity are important factors for space remote sensing cameras. This paper describes the problems with existing systems and introduces the thermal design of a space optical remote sensing camera. Firstly, based on the theory of wave-front aberration distribution, the thermal control index of a space remote sensing camera is proposed. Then on the basis of the analysis of the heat flux environment outside the camera space, the thermal optical analysis of the camera is performed by using the finite element analysis method at high and low temperature conditions. The results show that the transfer function of the optical system with the resolution of 50 lp in the full field of view is more than 0.4. The optical design index can be satisfied, and the rationality of the thermal design is verified. The simulation result meets the requirements of optical design very well. Therefore the study in this paper can be used as an important reference for other space optical systems, which has certain engineering significance.

Accession Number: WOS:000455303600068

Conference Title: Conference on Optical Sensing and Imaging Technologies and Applications / International Symposium on Optoelectronic Technology and Application (OTA) / Annual Conference of the Chinese-Society-for-Optical-Engineering (CSOE)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Dept Cooperat & Coordinat Ind Acad & Res, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2335-4

 


 

Record 152 of 170

Title: A Real-time Location Method for sea surface target by Aerial

Author(s): Zhang, GD (Zhang Guangdong); Chang, SS (Chang San-san); Shi, K (Shi Kui); Gao, B (Gao Bo); Guo, YZ (Guo Yunzeng)

Edited by: Guina M; Gong H; Lu J; Liu D

Source: OPTICAL SENSING AND IMAGING TECHNOLOGIES AND APPLICATIONS  Book Series: Proceedings of SPIE  Volume: 10846  Article Number: UNSP 1084625  DOI: 10.1117/12.2505373  Published: 2018  

Abstract: In order to acquire the geographic location information of sea-surface, aiming at feature that sea-surface elevation is known. A self-location algorithm independent of ranging equipment was developed. The paper uses camera's position and attitude information measured by position and orientation system which rigid connect with camera. Then the paper compensates the lever arm which comes from GPS Antenna phase center and camera center of photography. So that accuracy position was got. The collinearity equation is built by the camera's position, attitude and the known sea-surface elevation which equals zero to calculate target geodetic coordinates. The error model is built basing on total differential method. At last the location error of different detection range and angles of strabismus is analysed.

Accession Number: WOS:000455303600074

Conference Title: Conference on Optical Sensing and Imaging Technologies and Applications / International Symposium on Optoelectronic Technology and Application (OTA) / Annual Conference of the Chinese-Society-for-Optical-Engineering (CSOE)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Dept Cooperat & Coordinat Ind Acad & Res, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2335-4

 


 

Record 153 of 170

Title: Study on the near-field non-linearity (SMILE) of high power diode laser arrays

Author(s): Zhang, HY (Zhang, Hongyou); Jia, YT (Jia, Yangtao); Li, CX (Li, Changxuan); Zah, CE (Zah, Chung-en); Liu, XS (Liu, Xingsheng)

Edited by: Glebov AL; Leisher PO

Source: COMPONENTS AND PACKAGING FOR LASER SYSTEMS IV  Book Series: Proceedings of SPIE  Volume: 10513  Article Number: UNSP 105131R  DOI: 10.1117/12.2287580  Published: 2018  

Abstract: High power laser diodes have been found a wide range of industrial, space, medical applications, characterized by high conversion efficiency, small size, light weight and a long lifetime. However, due to thermal induced stress, each emitter in a semiconductor laser bar or array is displaced along p-n junction, resulting of each emitter is not in a line, called Near-field Non-linearity. Near-field Non-linearity along laser bar (also known as "SMILE") determines the outcome of optical coupling and beam shaping Pt The SMILE of a laser array is the main obstacle to obtain good optical coupling efficiency and beam shaping from a laser array. Larger SMILE value causes a larger divergence angle and a wider line after collimation and focusing, respectively. In this letter, we simulate two different package structures based on MCC (Micro Channel Cooler) with Indium and AuSn solders, including the distribution of normal stress and the SMILE value. According to the theoretical results, we found the distribution of normal stress on laser bar shows the largest in the middle and drops rapidly near both ends. At last, we did another experiment to prove that the SMILE value of a laser bar was mainly affected by the die bonding process, rather than the operating condition.

Accession Number: WOS:000432464600043

Conference Title: Conference on Components and Packaging for Laser Systems IV

Conference Date: JAN 30-FEB 01, 2018

Conference Location: San Francisco, CA

Conference Sponsors: SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

ZAH, CHUNG-EN 

R-3016-2019 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1512-0; 978-1-5106-1511-3

 


 

Record 154 of 170

Title: Quasi-CW performance and reliability of dual laser bars on a micro-channel cooler

Author(s): Zhang, HY (Zhang, Hongyou); Chen, L (Chen, Li); Zhao, S (Zhao, Sen); Wang, BX (Wang, Boxue); Zah, CE (Zah, Chung-en); Liu, XS (Liu, Xingsheng)

Edited by: Li R; Singh UN

Source: HIGH-POWER LASERS AND APPLICATIONS IX  Book Series: Proceedings of SPIE  Volume: 10811  Article Number: UNSP 108110F  DOI: 10.1117/12.2327073  Published: 2018  

Abstract: High power density as the critical performance of laser diode pumps significantly affects both efficiency and power of a solid state laser. In this report, we designed a new packaging structure that two laser bars bonded on the top and bottom of a MCC, respectively, to achieve higher power density at the same bias current or the same power density at a reduced bias current with respective to one laser bar on a MCC. We achieve 1KW output power at a lower bias current 450A with 2.3W/A slope efficiency from a dual-bar MCC at a duty cycle of 8% (200 mu s/400 Hz). Other performances like spectral width broadening, wavelength shift and reliability about 1KW quasi-CW high power laser diodes and 5KW for one vertical stack with five dual-bar micro-channel coolers (MCCs) also are discussed. The reliability of dual-bar MCC packaging structure is also studied by life-time testing, and the output peak power of all devices degraded less than 5% after working for 1353 hours.

Accession Number: WOS:000454574500007

Conference Title: Conference on High-Power Lasers and Applications IX

Conference Date: OCT 11-12, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: SPIE, Chinese Opt Soc

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Zeng, Yun 

JFK-6190-2023 

 

Lu, Jianhong 

IYT-3322-2023 

 

zhang, shuai 

IVU-7877-2023 

 

XU, Lin 

JDM-5554-2023 

0000-0003-1781-1638 

ZAH, CHUNG-EN 

R-3016-2019 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2221-0

 


 

Record 155 of 170

Title: A Customer Segmentation Model Based on Affinity Propagation Algorithm and Improved Genetic K-Means Algorithm

Author(s): Zhang, MY (Zhang, Meiyang); Zhang, ZL (Zhang, Zili); Qiu, S (Qiu, Shi)

Edited by: Shi Z; MercierLaurent E; Li J

Source: INTELLIGENT INFORMATION PROCESSING IX  Book Series: IFIP Advances in Information and Communication Technology  Volume: 538  Pages: 321-327  DOI: 10.1007/978-3-030-00828-4_32  Published: 2018  

Abstract: Customer Relationship Management System (CRM) has accumulated massive customer transaction data. Effective customer segmentation by analyzing transaction data can contribute to marketing strategy designing. However, the state-of-the-art researches are defective such as the uncertain number of clusters and the low accuracy. In this paper, a novel customer segmentation model, AP-GKAs, is proposed. First, factor analysis extracts customer feature based on multi-indicator RFM model. Then, affinity propagation (AP) determines the number of customer clusters. Finally, the improved genetic K-means algorithm (GKAs) is used to increase clustering accuracy. The experimental results showed that the AP-GKAs has higher segmentation performance in comparison to other typical methods.

Accession Number: WOS:000455377500032

Conference Title: 10th IFIP TC 12 International Conference on Intelligent Information Processing (IIP)

Conference Date: OCT 19-22, 2018

Conference Location: Nanning, PEOPLES R CHINA

Conference Sponsors: IFIP TC12, Guangxi Univ, Chinese Acad Sci, Inst Comp Technol

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Zhang, Zili 

HKW-2171-2023 

 

 

ISSN: 1868-4238

eISSN: 1868-422X

ISBN: 978-3-030-00828-4; 978-3-030-00827-7

 


 

Record 156 of 170

Title: Enhancing Boundary for Video Object Segmentation

Author(s): Zhang, Q (Zhang, Qi); Lu, XQ (Lu, Xiaoqiang); Yuan, Y (Yuan, Yuan)

Book Group Author(s): ACM

Source: PROCEEDINGS OF THE 2ND INTERNATIONAL CONFERENCE ON VISION, IMAGE AND SIGNAL PROCESSING (ICVISP 2018)  DOI: 10.1145/3271553.3271581  Published: 2018  

Abstract: Video object segmentation aims to separate objects from background in successive video sequence accurately. It is a challenging task as the huge variance in object regions and similarity between object and background. Among previous methods, inner region of an object can be easily separated from background while the region around object boundary is often classified improperly. To address this problem, a novel video object segmentation method is proposed to enhance the object boundary by integrating video supervoxel into Convolutional Neural Network (CNN) model. Supervoxel is exploited in our method for its ability of preserving spatial details. The proposed method can be divided into four steps: 1) convolutional feature of video is extracted with CNN model; 2) supervoxel feature is constructed through averaging the convolutional features within each supervoxel to preserve spatial details of video; 3) the supervoxel feature and original convolutional feature are fused to construct video representation; 4) a softmax classifier is trained based on video representation to classify each pixel in video. The proposed method is evaluated both on DAVIS and Youtube-Objects datasets. Experimental results show that by considering supervoxel with spatial details, the proposed method can achieve impressive performance for video object segmentation through enhancing object boundary.

Accession Number: WOS:000461414900010

Conference Title: 2nd International Conference on Vision, Image and Signal Processing (ICVISP)

Conference Date: AUG 27-29, 2018

Conference Location: Las Vegas, NV

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Yuan, Yuan 

GVS-5120-2022 

 

Yuan, Yuan 

ABB-2379-2020 

 

yuan, Yuan 

ISA-0923-2023 

 

 

ISBN: 978-1-4503-6529-1

 


 

Record 157 of 170

Title: A High-Precision eccentric Tracking Algorithm of Laser Interfering Targets Based on Kernel Correlation Filtering

Author(s): Zhang, X (Zhang, Xing); Tian, Y (Tian, Yan); Pan, JJ (Pan, Jiajia); Hao, W (Hao, Wei)

Book Group Author(s): IEEE

Source: 2018 IEEE 3RD INTERNATIONAL CONFERENCE ON IMAGE, VISION AND COMPUTING (ICIVC)  Pages: 637-641  Published: 2018  

Abstract: Laser weapons and laser three-dimensional imaging require high precision in target tracking, at the same time, it also need to face the situation where the target is interfered by the laser. To meet this need, in this paper, we propose a high-precision eccentric tracking algorithm based on kernel correlation filtering, which can be used to solve the problem. We simulated on Visual Studio and CCS platforms and the result show that the Average of Center Location Error (ACLE) can reach 0.74 pixels. For comparison, the ACLE of Tracking algorithm Based on Template Matching (TBTM) is 3.7pixels. In addition, our algorithm can run at 178 Frames-per-Second, the fake code is provided in the paper (see Algorithm 1).

Accession Number: WOS:000448170000126

Conference Title: 3rd IEEE International Conference on Image, Vision and Computing (ICIVC)

Conference Date: JUN 27-29, 2018

Conference Location: Chongqing, PEOPLES R CHINA

Conference Sponsors: IEEE, Chongqing Univ Posts & Telecommunicat

ISBN: 978-1-5386-4991-6

 


 

Record 158 of 170

Title: Noise contributions in on-chip four-photon states

Author(s): Zhang, YB (Zhang, Yanbing); Islam, M (Islam, Mehedi); Roztocki, P (Roztocki, Piotr); Reimer, C (Reimer, Christian); Sciara, S (Sciara, Stefania); Fischer, B (Fischer, Bennet); Bromberg, Y (Bromberg, Yaron); Caspani, L (Caspani, Lucia); Chu, ST (Chu, Sai T.); Little, BE (Little, Brent E.); Moss, DJ (Moss, David J.); Kues, M (Kues, Michael); Morandotti, R (Morandotti, Roberto)

Book Group Author(s): IEEE

Source: 2018 PHOTONICS NORTH (PN)  Published: 2018  

Abstract: We present the compact and scalable realization of four-photon time-bin entangled states using a quantum frequency comb generated from an integrated photonic chip. We show how noise affects higher-order spontaneous emissions for this state.

Accession Number: WOS:000520052800012

Conference Title: Photonics North (PN) Conference

Conference Date: JUN 05-07, 2018

Conference Location: Montreal, CANADA

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Chu, Sai T 

D-3312-2014 

0000-0001-8263-8507 

Kues, Michael 

HPE-7088-2023 

0000-0001-5323-3850 

Morandotti, Roberto 

AAU-4702-2020 

 

Caspani, Lucia 

C-3777-2009 

0000-0003-2711-0448 

Morandotti, Roberto 

J-7954-2013 

0000-0001-7717-1519 

Fischer, Bennet 

 

0000-0002-1186-0167 

 

ISBN: 978-1-5386-7521-2

 


 

Record 159 of 170

Title: HSA-RNN: Hierarchical Structure-Adaptive RNN for Video Summarization

Author(s): Zhao, B (Zhao, Bin); Li, XL (Li, Xuelong); Lu, XQ (Lu, Xiaoqiang)

Book Group Author(s): IEEE

Source: 2018 IEEE/CVF CONFERENCE ON COMPUTER VISION AND PATTERN RECOGNITION (CVPR)  Book Series: IEEE Conference on Computer Vision and Pattern Recognition  Pages: 7405-7414  DOI: 10.1109/CVPR.2018.00773  Published: 2018  

Abstract: Although video summarization has achieved great success in recent years, few approaches have realized the influence of video structure on the summarization results. As we know, the video data follow ahierarchical structure, i.e., a video is composed of shots, and a shot is composed of several frames. Generally, shots provide the activity-level information for people to understand the video content. While few existing summarization approaches pay attention to the shot segmentation procedure. They generate shots by some trivial strategies, such as fixed length segmentation, which may destroy the underlying hierarchical structure of video data and further reduce the quality of generated summaries. To address this problem, we propose a structure-adaptive video summarization approach that integrates shot segmentation and video summarization into a Hierarchical Structure-Adaptive RNN, denoted as HSA-RNN. We evaluate the proposed approach on four popular datasets, i.e., SumMe, TVsum, CoSum and VTW. The experimental results have demonstrated the effectiveness of HSA-RNN in the video summarization task.

Accession Number: WOS:000457843607058

Conference Title: 31st IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR)

Conference Date: JUN 18-23, 2018

Conference Location: Salt Lake City, UT

Conference Sponsors: IEEE, CVF, IEEE Comp Soc

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Xuelong 

ABF-3381-2020 

 

Li, Xuelong 

Z-3785-2019 

 

li, xiang 

GWM-6319-2022 

 

 

ISSN: 1063-6919

ISBN: 978-1-5386-6420-9

 


 

Record 160 of 170

Title: Video Captioning with Tube Features

Author(s): Zhao, B (Zhao, Bin); Li, XL (Li, Xuelong); Lu, XQ (Lu, Xiaoqiang)

Edited by: Lang J

Source: PROCEEDINGS OF THE TWENTY-SEVENTH INTERNATIONAL JOINT CONFERENCE ON ARTIFICIAL INTELLIGENCE  Pages: 1177-1183  Published: 2018  

Abstract: Visual feature plays an important role in the video captioning task. Considering that the video content is mainly composed of the activities of salient objects, it has restricted the caption quality of current approaches which just focus on global frame features while paying less attention to the salient objects. To tackle this problem, in this paper, we design an object-aware feature for video captioning, denoted as tube feature. Firstly, Faster-RCNN is employed to extract object regions in frames, and a tube generation method is developed to connect the regions from different frames but belonging to the same object. After that, an encoder-decoder architecture is constructed for video caption generation. Specifically, the encoder is a bi-directional LSTM, which is utilized to capture the dynamic information of each tube. The decoder is a single LSTM extended with an attention model, which enables our approach to adaptively attend to the most correlated tubes when generating the caption. We evaluate our approach on two benchmark datasets: MSVD and Charades. The experimental results have demonstrated the effectiveness of tube feature in the video captioning task.

Accession Number: WOS:000764175401044

Conference Title: 27th International Joint Conference on Artificial Intelligence (IJCAI)

Conference Date: JUL 13-19, 2018

Conference Location: Stockholm, SWEDEN

Conference Sponsors: Int Joint Conf Artifical Intelligence, Didi ChuXing, Xiaoi, Tencent, JD.com, Alibaba Grp, Baidu, Tieto, Adobe, Pwc, Artificial Intelligence Journal, Ericsson, Recorded Future, Songshu AI Learning, Microsoft, Node Pole, Nnaisense, Vinnova, IBM, Hitachi, Sondrel, Inovia ai, Figure Eight, Prowler.io, Nuance

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Li, Xuelong 

Z-3785-2019 

 

 

ISBN: 978-0-9992411-2-7

 


 

Record 161 of 170

Title: Performance comparison between two kinds of variable curvature mirrors: mathematical analysis, prototype design, experimental demonstration and application potentials in realizing non-moving element optical zooming

Author(s): Zhao, H (Zhao, Hui); Xie, XP (Xie, Xiaopeng); Xu, L (Xu, Liang); Zou, GY (Zou, Gangyi); Li, C (Li, Chuang); Fan, XW (Fan, Xuewu)

Edited by: Ma X; Fan B; Wan Y; Russell A; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES: LARGE MIRRORS AND TELESCOPES  Book Series: Proceedings of SPIE  Volume: 10837  Article Number: UNSP 108371C  DOI: 10.1117/12.2504861  Published: 2018  

Abstract: Variable curvature mirror (VCM) is a long-history technique used to correct the defocus and spherical aberrations caused by thermal lens effect in solid-state laser. In recent years, the probability of VCM in realizing non-moving element optical zoom imaging has been paid much attention and how to generate a large enough saggitus variation while still maintaining good enough surface figure accuracy is the research hot topic. In this manuscript, two kinds of VCM has been studied and the advantages of pressurization actuation based VCM having variable mirror thickness has been confirmed. Compared with the traditional annular force actuation based VCM with constant mirror thickness, the pressurization actuation based one having variable mirror thickness is capable of providing a saggitus variation of larger than 35um and still maintaining its surface figure accuracy superior to 1/10 lambda(lambda= 632.8nm). Besides that, it is found that spherical aberration plays a main role in leading to the degradation of surface figure accuracy and the surface figure accuracy at extreme curvature could be improved to about 1/40 lambda(lambda= 632.8nm) by only removing spherical aberration. Therefore, when applying pressurization actuation based VCM to realize non-moving element optical zooming, the wavefront sensing and subsequent digital correction to eliminate the spherical aberration will become a necessary step.

Accession Number: WOS:000459720200047

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies - Large Mirrors and Telescopes

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, Chinese Opt Soc, SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Wang, Luyao 

JLL-2001-2023 

 

li, chuang 

HNT-0863-2023 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2317-0

 


 

Record 162 of 170

Title: Non-contact Heart Rate Measurements Based on Skin Detection

Author(s): Zhao, T (Zhao Ting); Zhou, ZF (Zhou Zuofeng); Chen, PY (Chen Pengyong); Cao, JZ (Cao Jianzhong); Yang, HT (Yang Hongtao)

Edited by: Jiang X; Hwang JN

Source: TENTH INTERNATIONAL CONFERENCE ON DIGITAL IMAGE PROCESSING (ICDIP 2018)  Book Series: Proceedings of SPIE  Volume: 10806  Article Number: UNSP 1080655  DOI: 10.1117/12.2502811  Published: 2018  

Abstract: Non-contact measurements of the cardiac pulse of humanity is always a challenging problem. Almost all the existing research work concentrates on heart rate measurements based on video recordings of the human face, in which the subject is restricted rigidly. In this paper, we propose a novel approach based on skin detection method. The skin regions in color video recordings are generalized to anywhere of the human body, not limited to human face. The skin detector and a chrominance-based technique are firstly used to detect the photo-plethysmo-graphy (PPG) signal. Then, we use an empirical parameter selection method to get the final heart rate estimation. The experiment results show the effectiveness of the proposed method.

Accession Number: WOS:000452819600184

Conference Title: 10th International Conference on Digital Image Processing (ICDIP)

Conference Date: MAY 11-14, 2018

Conference Location: E China Normal Univ, Shanghai, PEOPLES R CHINA

Conference Sponsors: Shanghai Key Lab Multidimens Informat Proc, Int Assoc Comp Sci & Informat Technol

Conference Host: E China Normal Univ

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2200-5

 


 

Record 163 of 170

Title: Research on methods of enlarging field of view of the synthetic aperture lidar

Author(s): Zhao, YY (Zhao, Yiyi); Xue, B (Xue, Bin); Ma, XL (Ma, Xiaolong); He, YH (He, Yinghong); Yan, XT (Yan, Xingtao); Lv, J (Lv, Juan); Xiang, M (Xiang, Meng)

Edited by: Ma X; Fan B; Wan Y; Russell A; Luo X

Source: 9TH INTERNATIONAL SYMPOSIUM ON ADVANCED OPTICAL MANUFACTURING AND TESTING TECHNOLOGIES: LARGE MIRRORS AND TELESCOPES  Book Series: Proceedings of SPIE  Volume: 10837  Article Number: UNSP 108370D  DOI: 10.1117/12.2504949  Published: 2018  

Abstract: Synthetic aperture lidar is a new ultra-high resolution optical imaging instrument, but its reception field is very narrow which is subject to the "antenna theory". In this paper, the antenna efficiency theory is used to explain the antenna theory and the method of enlarging the field of view of the synthetic aperture laser radar. Then the increase range of the field angle of the three methods is deduced by heterodyne efficiency simulation. The simulation results show that the focal plane heterodyne detection optical path of the wide-beam local oscillator beam focal plane has the ability to improve the heterodyne efficiency of the edge field of view by reducing the heterodyne efficiency of the central field of view. The focal plane heterodyne detection optical path of the array detector requires the detector whose pixel size less than 3 times Airy spot radius covers the whole field of view, which can increase the maximum 1.83N times compared to the antenna theory. The effective field of the pupil plane heterodyne detection optical path of the array detector has nothing to do with the magnification of the telescope, the pupil diameter, the size of the detector, etc., which can be increased by N times as compared with the antenna theory.

Accession Number: WOS:000459720200012

Conference Title: 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies - Large Mirrors and Telescopes

Conference Date: JUN 26-29, 2018

Conference Location: Chengdu, PEOPLES R CHINA

Conference Sponsors: Chinese Acad Sci, Inst Opt & Elect, Chinese Opt Soc, SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

He, Chen 

JLM-5059-2023 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2317-0

 


 

Record 164 of 170

Title: A novel camera calibration method without distortion model

Author(s): Zhao, YH (Zhao, Yu-hui); Bai, JM (Bai, Jian-ming)

Edited by: McBride JW; Tan J; Han S; Zhang X

Source: OPTICAL PRECISION MANUFACTURING, TESTING, AND APPLICATIONS  Book Series: Proceedings of SPIE  Volume: 10847  Article Number: UNSP 1084709  DOI: 10.1117/12.2504084  Published: 2018  

Abstract: CCD camera calibration technique is an important part of image processing. The calibration accuracy of CCD camera parameters determines the precision of the image processing system. With the development of industry, the demand for image processing precision is increasing, so the precision and robustness of CCD camera calibration technique are required to be higher.
In order to further improving camera calibration accuracy and simplifying calibration process, in this paper, we proposed a new method of camera calibration on the basis of the traditional camera calibration technique. Different from the traditional calibration method, this new calibration technique uses a "black box system" to build a link between the ideal image points and actual ones instead of setting up linear CCD camera imaging model (i.e. pinhole imaging model) and nonlinear imaging model about camera distortion. The actual pixel coordinates of the camera image are the input values, and the reprojection points obtained by the world coordinates are the output values.
In order to verify the validity of this method, we carry out experiments based on the improved calibration method of zhang zhengyou. 1 And finally we verified the feasibility of this method by comparing the experimental results respectively obtained though carrying out the calibration method this paper proposed and the traditional calibration method by camera calibration toolbox.

Accession Number: WOS:000455301400008

Conference Title: Conference on Optical Precision Manufacturing, Testing, and Applications / International Symposium on Optoelectronic Technology and Application / Annual Conference of the Chinese-Society-for-Optical-Engineering (CSOE)

Conference Date: MAY 22-24, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Astronaut, Photoelectron Technol Comm, CHIA, Photoelectron Industrializat Comm, CHIA, Acad & Res, Dept Cooperat & Coordinat Ind, Sci & Technol Low Light Level Night Vis Lab, Chinese Acad Engn, Div Informat & Elect Engn

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2337-8

 


 

Record 165 of 170

Title: An Automatic Stimulus and Synchronous Tracking System for Strabismus Assessment Based on Cover Test

Author(s): Zheng, Y (Zheng, Yang); Fu, H (Fu, Hong); Li, B (Li, Bin); Lo, WL (Lo, Wai-Lun); Zheng, Y (Zheng, Yang); Li, B (Li, Bin); Wen, DS (Wen, Desheng); Zheng, Y (Zheng, Yang); Li, B (Li, Bin)

Book Group Author(s): IEEE

Source: 2018 INTERNATIONAL CONFERENCE ON INTELLIGENT INFORMATICS AND BIOMEDICAL SCIENCES (ICIIBMS)  Book Series: International Conference on Intelligent Informatics and Biomedical Sciences ICIIBMS  Pages: 123-127  Published: 2018  

Abstract: Strabismus is a common vision disorder that affects around 4% of the population, bringing about unpleasant influences on people's health and quality of life. The cover test is one of the exams for detecting this pathology, which is considered as the golden standard method. However, the subjectivity of the ophthalmologist conducting the cover test could lead to uncertainties and limitations to the result of strabismus assessment. Nowadays computer-aid methods have been used to assist ophthalmological diagnosis and therapy, whereas the development and use of the high-tech is not a general reality within the sub-specialty of strabismus. In this study, an automatic stimulus module controlled by the micro-control-unit is used to generate the cover action of the occluder and the imaging devices are used to simultaneously monitor and record the movement of the eyes. With the proposed system and algorithm, the presence and type of strabismus can be generated automatically, which makes the diagnosis of strabismus objective, automatic and highly efficient.

Accession Number: WOS:000465243800026

Conference Title: International Conference on Intelligent Informatics and Biomedical Sciences (ICIIBMS)

Conference Date: OCT 21-24, 2018

Conference Location: Bangkok, THAILAND

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Wang, Luyao 

JLL-2001-2023 

 

Lo, Wai Lun 

AAS-7913-2021 

 

fu, hong 

 

0000-0003-2246-7552 

 

ISSN: 2189-8723

ISBN: 978-1-5386-7516-8

 


 

Record 166 of 170

Title: Extending the depth-of-field and ranging the scene with a shifted phase mask

Author(s): Zhou, L (Zhou, Liang); Shan, QS (Shan, Qiusha); Liu, ZH (Liu, Zhaohui); She, WJ (She, Wenji)

Edited by: Chu J; Liu W; Jiang H

Source: FIFTH CONFERENCE ON FRONTIERS IN OPTICAL IMAGING TECHNOLOGY AND APPLICATIONS (FOI 2018)  Book Series: Proceedings of SPIE  Volume: 10832  Article Number: UNSP 108320B  DOI: 10.1117/12.2506453  Published: 2018  

Abstract: Since the concept of wavefront coding was proposed, many types of phase masks have been reported to extend the depth-of-field of imaging system. Unfortunately there exist some unpleasant image artifacts in the final decoded images, especially for asymmetric phas(1)e masks. In this paper, we illustrate a technique that involve shifting a phase mask laterally in pupil plane to introduce axial defocus to an imaging system, which can further be used to determine the defocus map according to the amount of image artifacts. This eventually enables recovery of extended depth-of-filed, artifacts-free decoded images together with a range map. Theoretical analyses and experimental results indicate the effectiveness of this method.

Accession Number: WOS:000454579900010

Conference Title: 5th Conference on Frontiers in Optical Imaging Technology and Applications (FOI)

Conference Date: JUL 25-27, 2018

Conference Location: Hefei, PEOPLES R CHINA

Conference Sponsors: Chinese Soc Opt Engn, Chinese Soc Opt Engn, Photoelectron Technol Comm, Key Lab Polarizat Imaging Detect Technol, Chinese Acad Engn, Natl Nat Sci Fdn China

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

liu, zhao 

GXV-6141-2022 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2290-6

 


 

Record 167 of 170

Title: Fast spatial domain reconstruction for structured illumination microscopy

Author(s): Zhou, X (Zhou, Xing); Lei, M (Lei, Ming); Dan, D (Dan, Dan); Yao, BL (Yao, Baoli)

Edited by: Yatagai T; Aizu Y; Matoba O; Awatsuji Y; Luo Y

Source: BIOMEDICAL IMAGING AND SENSING CONFERENCE  Book Series: Proceedings of SPIE  Volume: 10711  Article Number: 107110N  DOI: 10.1117/12.2309616  Published: 2018  

Abstract: As a wide-field super-resolution (SR) technique, structured illumination microscopy (SIM) features the merits of fast imaging speed, low excitation intensity and a large field of view. However, it is hard for SIM to realize real-time imaging as the SR-image restoration always time-consuming. The basic workflow for conventional SIM reconstruction is based on the frequency domain reconstruction (FDR), which inevitably brings some computational errors and slows down the image reconstruction speed. In this letter, we introduce a fast SIM reconstruction scheme named spatial domain reconstruction (SDR) algorithm, which allow for obtaining a much faster reconstruction than FDR, making it suitable for real-time SR imaging. Meanwhile, the validity of the SDR algorithm is verified by real experiment.

Accession Number: WOS:000448016600021

Conference Title: Biomedical Imaging and Sensing Conference

Conference Date: APR 25-27, 2018

Conference Location: Yokohama, JAPAN

Conference Sponsors: SPIE

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

zhou, xing 

GQP-4516-2022 

 

dan, dan 

KEH-7711-2024 

 

zhou, xt 

GWZ-9212-2022 

 

Yao, Baoli 

AAB-4606-2021 

 

Zhou, Xiangfeng 

KDO-8724-2024 

 

Lei, Ming 

JAD-1050-2023 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-1980-7

 


 

Record 168 of 170

Title: Key Technology Research on Monocular Vision Pose Measurement under Complex Background

Author(s): Zhou, ZF (Zhou, Zuofeng); Cao, JZ (Cao, Jianzhong); Yang, HT (Yang, Hongtao); Fan, YC (Fan, Yingchun); Huang, HM (Huang, Huimin); Hu, GL (Hu, Guoliang)

Book Group Author(s): IEEE

Source: PROCEEDINGS OF 2018 TENTH INTERNATIONAL CONFERENCE ON ADVANCED COMPUTATIONAL INTELLIGENCE (ICACI)  Pages: 134-139  Published: 2018  

Abstract: In the space exploration, the high precision measurement of the position and orientation of the space target is still a challenging problem. In this paper, we present the key technology research on monocular vision pose measurement under complex background. First, the space target features including the center location of the light spot and the circle detection are extracted. Second, we measure the circle pose and using the points outside the circle to remove the false solution. Finally, the monocular ground testing system is established to test the performance of the proposed algorithm. The experiment results show that when the distance between the camera and the target is 1200mm, the translation error is 1.5mm and the rotate error is 0.8 degrees, respectively.

Accession Number: WOS:000455001500024

Conference Title: 10th International Conference on Advanced Computational Intelligence (ICACI)

Conference Date: MAR 29-31, 2018

Conference Location: xiamen, PEOPLES R CHINA

Conference Sponsors: IEEE Computat Intelligence Soc, Xiamen Univ, Fujian Prov Assoc Artificial Intelligence, IEEE Systems Man & Cybernet Soc

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

fan, yingchun 

GVS-6202-2022 

 

 

ISBN: 978-1-5386-4362-4

 


 

Record 169 of 170

Title: Research for Road Detection Technology in Low Illumination Remote Sensing Image

Author(s): Zhou, ZF (Zhou, Zuofeng); Qiao, BW (Qiao, Baowen); Hu, GL (Hu, Guo Liang); Huang, HM (Huang, Huimin); Zhao, T (Zhao, Ting); Yang, HT (Yang, Hongtao); Cao, JZ (Cao, Jianzhong)

Edited by: Jiang X; Hwang JN

Source: TENTH INTERNATIONAL CONFERENCE ON DIGITAL IMAGE PROCESSING (ICDIP 2018)  Book Series: Proceedings of SPIE  Volume: 10806  Article Number: UNSP 108064U  DOI: 10.1117/12.2502812  Published: 2018  

Abstract: In this paper, a road detection algorithm from the low illumination remote sensing images is proposed. First, the top-hat transform is used to enhance the edge information in low illumination images. Next, a road detection method based on parallel lines is proposed to detect the parallel characteristics of the two edges of the road. The experiment results show that the proposed algorithm can detect the road information effectively and precisely.

Accession Number: WOS:000452819600173

Conference Title: 10th International Conference on Digital Image Processing (ICDIP)

Conference Date: MAY 11-14, 2018

Conference Location: E China Normal Univ, Shanghai, PEOPLES R CHINA

Conference Sponsors: Shanghai Key Lab Multidimens Informat Proc, Int Assoc Comp Sci & Informat Technol

Conference Host: E China Normal Univ

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2200-5

 


 

Record 170 of 170

Title: Imaging Through Highly Scattering Media Based on Optical Transmission Matrix

Author(s): Zhuang, B (Zhuang, Bin); Xu, CF (Xu, Chengfang); Geng, Y (Geng, Yi); Zhao, GZ (Zhao, Guangzhi); Chen, H (Chen, Hui); Ren, LY (Ren, Liyong)

Edited by: Huang Y

Source: TENTH INTERNATIONAL CONFERENCE ON INFORMATION OPTICS AND PHOTONICS  Book Series: Proceedings of SPIE  Volume: 10964  Article Number: UNSP 109642F  DOI: 10.1117/12.2505772  Published: 2018  

Abstract: The inhomogeneity of scattering media will distort the propagation of the waves, which is detrimental to the performance of optical imaging. Although various approaches have been proposed recently to overcome this problem, they are not suitable to image the rapid-movement objects as a long sequence of measurement steps are required. In this paper, based on the optical transmission matrix of the scattering medium, we show that the information of the object can be recovered directly from the distorted output optical field. Especially, our method is effective to the thick scattering medium. We predict it might have the potential application for real-time imaging.

Accession Number: WOS:000456505500071

Conference Title: 10th International Conference on Information Optics and Photonics

Conference Date: JUL 08-11, 2018

Conference Location: Beijing, PEOPLES R CHINA

Conference Sponsors: Chinese Laser Press, Tsinghua Univ, Int Soc Opt & Photon

Author Identifiers:

Author

Web of Science ResearcherID

ORCID Number

Ren, Liyong 

F-5518-2014 

 

 

ISSN: 0277-786X

eISSN: 1996-756X

ISBN: 978-1-5106-2580-8