Gender: Male
Title: Pre-Appointed Assistant Professor/Special Associate Researcher
Education: Doctoral student
Discipline: Instrument Science and Technology
Research interests: Bionic vision, Laser 3D Imaging, Ghost imaging, Fusion perception
E-mail: caojie@bit.edu.cn
2. Research Field
1. Bionic vision;
2. Laser 3D imaging;
3. Ghost imaging;
4. Fusion perception;

Cao Jie, male, Doctor, was appointed as associate researcher in 2017 and doctoral supervisor in 2018. He has been engaged in teaching and research work in the field of bionic optics and intelligent perception for a long time, and his main research directions include bionic vision (human eye/compound eye), laser three-dimensional imaging (laser radar), intelligent perception, etc. Presided over 13 provincial and ministerial level projects, including National Natural Science Foundation (youth + surface), major high-score projects, LH pre-research, installation, horizontal and so on. He has published 44 SCI/EI papers in international and domestic journals such as optics express, Optics and Lasers in Engineering, and Acta Photonica Sinica, among which 1 was published/correspondences 25. 5 times invited to give invited reports at domestic and foreign academic conferences. More than 30 invention patents have been declared, 15 of which have been authorized. Reviewer for international journals such as Optics express, Optics letter, and Applied Optics.
Teachers' personal homepage: http://teacher.bit.edu.cn/caojie/ < br >

1. Bionic vision;
2. Laser 3D imaging;
3. Ghost imaging;
4. Fusion perception;

(1) Project Situation
1, Foundation strengthening field fund based on Bionic XXX 3D imaging research 1.5 million 2020.1-2022.12 Chair of research
2, LH project helicopter-borne XXX correlation imaging 2019.12-2020.12 1.8 million presided over research
3, the National Natural Science Foundation of China Project Phased array bionic laser 3D imaging method research 61871031 2019.1-2022.12 63 Director of research
4, high score major special jungle target picosecond XXX technology 2018.1-2020.12 275 host in research
(2) Publishing papers
1. Jie Cao, Yang Cheng, Peng Wang, Kaiyu Zhang, Yuqing Xiao, Kun Li, Yuxin Peng and Qun Hao*. Autofocusing imaging system based on laser ranging and a retina-like sample. Applied Optics, 2017.08, 56(22): 6222-6229. (IF:1.650). DOI: 10.1364/ AO.56.006222.
2. Jie Cao, Yang Cheng, Qun Hao*, Fanghua Zhang, Kaiyu Zhang, Xiao Li, Kun Li and Yuxin Peng. Improving the performance of time-domain pulsed echo laser profile using tunable lens. Optics Express, 2017.04, 25(7): 7970-7983. (IF:3.307). DOI: 10.1364/OE.25.007970.
3. Lei Yan, Jie Cao*, Saad Rizvi, Kaiyu Zhang, Qun Hao *, Xuemin Cheng. Improving the performance of image fusion based on visual saliency weight map combined with CNN. IEEE Access, 2020. PP(99):1-13
4. Rizvi Saad, Cao Jie*, ZhangKaiyu, Hao Qun. Deringing and denoising in extremely under-sampled Fourier single pixel imaging. Optics Express, 2020, 28(5), 7360-7374. doi:10.1364/OE.385233
5. Yan Lei, Cao Jie*, Cheng Yang, Saad Rizvi, Hao Qun Infrared and Visible Image Fusion via L0 Decomposition and Intensity Mask. IEEE Photonic Journal, 2019. 11(6): 3901211 (1-11). DOI: 10.1109 / JPHOT. 2019.2952654, the IF: 2.729 < br > 6. Yingbo Wang, Jie Cao*, Chengqiang Xu, Yang Cheng, Xuemin Cheng, Qun Hao*(2019). "Moving Target Tracking and Imaging Through Scattering Media via Speckle-Difference-Combined Bispectrum Analysis. "IEEE Photonics Journal, 11 (6) : 1-14. DOI: 10.1109 / JPHOT. 2019.2944934 IF: 2.729 < br > 7, Yang Ao, Cao Jie*, Zhang Fanghua, et al. Ultrathin Tunable Lens Based on Boundary Tension Effect [J]. Sensors, 2019, 19:418 (1-10), DOI: 10.3390/s19184018. IF:3.031
8. Zhang Kaiyu, Cao Jie*, Zhang Fanghua, Jiang Yahui, Cheng Yang, Wang Dong, Hao Qun. Fourier Single-Pixel Imaging Based on Lateral Inhibition for Low-Contrast Scenes [J]. IEEE Photonics Journal, 2019, 5(11): 6901711 (1-11)
9. Wang, Zihan, Jie Cao*, Qun Hao, Fanghua Zhang, Yang Cheng and Xianyue Kong (2019). "Super-resolution imaging and field of view extension using a single camera with Risley prisms." Review of Scientific Instruments 90:033701(1-14). IF 1.587
10. Yang, Cheng, Cao Jie, Zhang Yangkun and Hao Qun* (2019). "Review of state-of-art artificial compound eye imaging systems." Bioinspiration & Biomimetics 14(3).IF 3.13
(3) Invention patents
1, Cao Jie, Hao Qun, Wang Zihan, Zhang Fanghua, Xiao Yuqing, Jiang Yang, an integrated method and system for Variable resolution target detection and recognition, ZL 201710147950.0, Authorized date 2019.08.23
2, CAO Jie, Yang Ao, ZHANG Fanghua, Wang Fei, Zhang Jiali, Common path equal-path scanning LiDAR, ZL 201821984677.3. Date of Authorization: 2019.8.23
3, Cao Jie, Hao Qun, Yan Lei, Cheng Xuemin, Wang Zihan, Zhang Fanghua, Wang Xinyu, a bionic super-resolution imaging sensor and imaging method, ZL201710413455.X, Date of authorization: 2019.6.21
4, Cao Jie, Hao Qun, Cheng Yang, Li Xiao, Gao Zedong, Zhang Fanghua, Zhang Yakun, an adaptive closed-loop adjustment laser ranging method and device, ZL 201611243352.5. Authorization Date: 2019.04.5
(4) Awards
1, "Science and Technology Winter Olympics, Smart Beijing" Technical products and creative design Competition, Excellence Award 2020.2 Beijing Municipal Science and Technology Commission
2. Jin Guofan Youth Scholarship 2017 China Instrumentation Society