Design of multi-channel data acquisition system for real-time perception lidar

[1] Omkar D Supekar, Baris N Ozbay, Mo Zohrabi, et al. Two-photon laser scanning microscopy with electrowetting-based prism scanning[J]. Biomed Opt Express, 5412-5426(2017).

[2] Liu Ruqing, Jiang Yan, Jiang Chenghao, et al. Amplifying circuit interface model for Lidar signal processing systems[J]. Journal of Electronics & Information Technology, 42, 1636-1642(2020).

[3] Chen Jianbiao, Sun Huayan, Zhao Rongsheng, et al. Research development of range-resolved laser radar technology[J]. Infrared and Laser Engineering, 48, 0805007(2019).

[4] Wei Yu, Jiang Shilei, Sun Guobin, et al. Design of solid-state array laser radar receiving optical system[J]. Chinese Optics, 48, 517-526(2020).

[5] Luo Le, Wu Changqiang, Lin Jie, et al. Time-domain denoising based on photo-counting Lidar[J]. Optics and Precision Engineering, 27, 1175-1180(2018).

[6] Asad Lesani, Ehsan Nateghinia, Luis F Miranda-Moreno. Development and evaluation of a real-time pedestrian counting system for high-volume conditions based on 2D LiDAR[J]. Transportation Research Part C, 114, 20-35(2020).

[7] Li Xinqing, Zhang Tianshu, Fu Yinbin, et al. Design of data acquisition card for Lidar echo signal based on FPGA[J]. Journal of Atmospheric and Environmental optics, 13, 150-160(2018).

[8] Liu Binggang, Chang Jianhua, Xu Fan, et al. Design of Lidar data acquisition system based on FPGA chip[J]. Electronics Opticas & Control, 25, 68-72(2018).

[9] Liu Yanping, Wang chong, Xia Haiyun. Application progress of time-frequency analysis of Lidar[J]. Laser & Optoelectronics Process, 55, 68-83(2018).

[10] Cai Yunfei, Shi Tingmin, Tang Zhenmin. Negative obstacle perception in unstructured environment with double multi-beam Lidar[J]. Acta Automatica Sinica, 44, 569-576(2018).

[11] Zhu Jingguo, Li Feng, Hang Qitai, et al. Design and realization of an airborne Lidar dual-wedge scanning system[J]. Infrared and Laser Engineering, 45, 0502001(2016).

[12] Zeng Haohao, Li Song, Zhang Zhiyu, et al. Risley-prism-based beam scanning system for mobile Lidar[J]. Optics and Precision Engineering, 27, 1444-1450(2019).

[13] Wang Hao, Luo Pei, Li Xiaolu. Design of Lidar ranging system for short-distance dynamic range and error analysis[J]. Journal of Beijing University of Aeronautics and Astronautics, 46, 422-429(2020).

[14] Hu Yicheng, Zhang Xiaoxi, Dai Mingqing, et al. Design of multi-channel signal acquisition system based on DSP and FPGA[J]. Information & Communications, 86-88(2019).

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Ruqing Liu, Yan Jiang, Feng Li, Zhe Meng, Wenju Guo, Jingguo Zhu. Design of multi-channel data acquisition system for real-time perception lidar[J]. Infrared and Laser Engineering, 2021, 50(5): 20200291

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Paper Information

Category: Lasers & Laser optics

Received: Dec. 6, 2020

Accepted: --

Published Online: Aug. 13, 2021

The Author Email: Jingguo Zhu (zhujingguo@ime.ac.cn)

DOI:10.3788/IRLA20200291

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology