Gender: Female
Title: Associate Professor
Education: Doctoral student
Discipline: Optical Engineering
Research interests: Computational optical imaging, high-speed imaging, high-resolution infrared imaging, three-dimensional imaging, super resolution imaging
E-mail: jke@bit.edu.cn
I. Personal Profile

Ke Jun, female, born in Hebei Province in August 1974, Doctor, promoted to associate professor in 2012, hired as doctoral supervisor in 2017. He has been engaged in teaching and scientific research in the field of optical engineering and computational optical imaging for a long time, and his main research directions include photoelectric image processing, high-speed imaging, high-resolution infrared imaging, three-dimensional imaging, super-resolution imaging, and fast image recovery algorithm. He has presided over a number of provincial and ministerial projects, including the National Natural Science Foundation Youth Fund project, the National Natural Science Foundation surface project, and the 13th Five-Year pre-research project. He has published more than 50 papers in international and domestic journals and conferences such as Optics Express, Optics Letters, and Biomedical Optics Express. In 2018 and 2019, invited presentations were made at the Imaging and Applied Optics Congress and Photonics Asia, respectively. 7 patents have been declared, 3 of which have been authorized. Participated in writing and publishing the monograph "Optical Compressive Sensing". The main courses are "Basic and Experiment of Optoelectronic Technology" (undergraduate), "Laser Ranging Technology and Application" (undergraduate), "Digital Video and real-time image Processing Technology" (graduate). There are 6 graduate students, 2 doctoral students and 3 master students. He is the 2019 and 2020 Program Chair of the International Conference COSI(Computational Optical Sensing and Imaging), and the editorial board of the 2019 COSI special issue of Optics Express. Member of organizing committee of International conferences Computational Imaging 2018-2020, SOLAR 2011-2014, IS2012, SRS2014, Member of IEEE, SPIE, OSA, and Chinese Optical Society. IEEE, JOSA, Applied Optics, Optics Letters, Optics Express and other international journal reviewers.

1. Optical Engineering;
2. Computational optical imaging;

1996, School of Electronic Engineering, University of Electronic Science and Technology of China, B.S.
1997, School of Electronic Engineering, University of Electronic Science and Technology of China, M.S.
2002, Department of Mathematics, Purdue University, USA, M.S.
2010, Ph.D., Department of Electrical and Computer Engineering, University of Arizona, with supervisor: Mark A Neifeld.

2010-2012, Postdoctoral Researcher, Department of Electronic and Electrical Engineering, University of Hong Kong, Co-supervisor: Edmund Y Lam;
2012-present, Teacher, School of Optoelectronics, Beijing Institute of Technology.

01. National Major scientific research Instrument development Project, Development of long-term high-speed and high-resolution measuring instruments with instability characteristics of Complex Structures, 2018-2022, participated in
02. National Natural Science Foundation of China, 61675023, Research on the Theory and Method of Visible and Infrared Dual-band Time-domain compression high-speed Imaging, 2017-2020, Host
03. 13th Five-Year Plan Pre-Research Project, High-resolution Infrared Imaging Technology Based on Parallel Compressed Sensing Theory, 2016-2020, host
4. Youth Foundation of National Natural Science Foundation of China, 61307022, Research on Principles and Methods of Compressed Sensing LIDAR 3D Imaging, 2014-2016, Host 05. New Teachers Project of Special Research Fund for Doctoral Program of Universities, Research on Theory and Method of Dual-band Compression Imaging, 2014-2016, Host
06. 7. Ke Jun ·, Zhang Linxia, Zhou Qun, Application of compressed sensing in optical imaging, Acta Optica Sinica, 2020, accepted
08. Zhou Qun, Jun Ke*, Edmund Y. Lam, Near-infrared temporal compressive imaging for video, Optics Letters, 2019, 44(7).
09. Jun Ke*, Edmund Y. Lam, Fast compressive measurements acquisition using optimized binary sensing matrices for low-light-level imaging, Optics Express, 2016,24 (9) : 9869-9887. (in Chinese)
10. Jun Ke*, Edmund Y. Lam, Object reconstruction in block-based compressive imaging, Optics Express, 2012, 20 (20) : 22102-22117.
11. Jun Ke, Edmund Y. Lam, Image reconstruction from nonuniformly spaced samples in spectral-domain optical coherence tomography, Biomedical Optics Express, 2012,3 (4) : 741-752.
12. Zhimin Xu, Jun Ke, Edmund Y. Lam, High-resolution lightfield photography using two masks, Optics Express, 2012, 20 (10) : 10991-10983.
13. Jun Ke, Ting-Chung Poon, Edmund Y. Lam, 13. Jun Ke, Ting-Chung Poon, Edmund Y. Lam, Depth resolution enhancement in optical scanning holography with a dual-wavelength laser source, Applied Optics, 2011, 50 (34) : H285-H296.
14. Jun Ke, Amit Ashok, Mark A. Neifeld, Block-wise motion detection using compressive imaging system, Optics Communications, 2011,284 (5) : 1170-1180.
15. Mark A. Neifeld, Jun Ke*, Optical architectures for compressive imaging, Applied Optics, 2007,46 (22) : 5293-5303.
16. Ke Jun, Liu Gang Ping, a Deep Learning method for Obtaining high-resolution Full-waveform laser LD Data, 2019.10, China, 201911001708.8
17. Ke Jun, Zhang Linxia, A Parallel time-space joint compression imaging method and device using DMD, 2019.9, China, 201910846205.4
18. Ke Jun; Zhou Qun, A Dual-band Time-domain compressed sensing high-speed imaging method and device 2019.1.7, China, 201910011622.7
19. Ke Jun, a Time-domain super-resolution Compressed sensing Full waveform laser LD ranging method and device 2017.11.22, China, 201711172883.4
20. Kathrin Berkner; M. Dirk Robinson; Jun Ke, Adjustable Multimode Lightfield Imaging System, March 31, 2011, US 8143565 B2
Updated: November 2019