Acta Photonica Sinica, Volume. 52, Issue 8, 0812003(2023)
Computation Efficient Demodulation Method for Random Phase Modulated Continuous Wave Light Ranging Based on Heterodyne Detection
References(17)
[1] AMANN M, BOSCH T, LESCURE M et al. Laser ranging: a critical review of unusual techniques for distance measurement[J]. Optical Engineering, 40, 10-19(2001).
[2] ABSHIRE J, SUN X, RIRIS H et al. Geoscience laser altimeter system (glas) on the ice-sat mission: pre-launch and on-orbit measurement performance[C], 3, 1534-1536(2003).
[3] YU Zhenzhen, HOU Xia, ZHOU Cuiyun. Progress and current state of space-borne laser altimetry[J]. Laser and Optoelectronics Progres, 50, 020006(2013).
[4] LIU Xiangnan, LI Yingfei, XIANG Chengyong et al. A deep space exploration carrier capture algorithm with low SNR[J]. Journal of Deep Space Exploration, 5, 147-153(2018).
[5] WANG Mingjun, WU Zhensen, LI Yingle et al. Modeling and measuring the pulse laser scattering echo power from whole dimension target[J]. Chinese Journal of Lasers, 33, 1557-1560(2006).
[6] XIONG Xianming, LI Sanlong, ZHANG Wentao et al. Design of driving laser diode for ladar ranging system[J]. Infrared and Laser Engineering, 45, 123-127(2016).
[7] TAKEUCHI N, SUGIMOTO N, BABA H et al. Random modulation cw lidar[J]. Applied Optics, 22, 1382-1386(1983).
[8] TAKEUCHI N, BABA H, SAKURAI K et al. Diode-laser random modulation cw lidar[J]. Applied Optics, 25, 63-67(1986).
[9] MITEV V, MATTHEY R, REUSSER D. Development of a pseudorandom noise modulation, continuous-wave (PRN-cw) total backscatter lidar[C], 2505, 150-160(1995).
[10] YANG Fu, HE Yan, CHEN Weibiao. Study of fiber laser ranging system using pseudorandom modulation and single photon counting techniques[J]. Chinese Journal of Lasers, 38, 0314003(2011).
[11] MATTHEY R, MITEV V. Pseudo-random noise-continuous-wave laser radar for surface and cloud measurements[J]. Optics Lasers Engineering, 43, 557-571(2005).
[12] QIU Zisheng, YANG Fu, YE Xingchen et al. Research on laser ranging technology based on pseudo-random code phase modulation and coherent detection[J]. Laser and Optoelectronics Progres, 55, 052801(2018).
[13] HOLMES J, RASK B. Coherent cw, pseudo-random code modulated lidar for path-resolved optical remote sensing[C], 2222, 20-28(1994).
[14] YANG F, HE Y, CHEN W et al. Laser altimeter based on random code phase modulation and heterodyne detection[J]. IEEE Photonics Technology Letters, 26, 2337-2340(2014).
[15] XU Z, YU F, QIU B et al. Coherent random-modulated continuous-wave lidar based on phase-coded subcarrier modulation[J]. Photonics, 8, 475-486(2021).
[16] SEBASTIAN B, CHRISTIAN W. Phase-code-based modulation for coherent Lidar[J]. IEEE Transactions on Vechicular Technology, 70, 9886-9897(2021).
[17] WU Y, DENG L, LIANG W et al. Narrow linewidth external cavity laser capable of high repetition frequency tuning for FMCW LiDAR[J]. IEEE Photonics Technology Letters, 34, 1123-1126(2022).
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Ying WU, Lihua DENG, Chaofeng MA, Wei LIANG. Computation Efficient Demodulation Method for Random Phase Modulated Continuous Wave Light Ranging Based on Heterodyne Detection[J]. Acta Photonica Sinica, 2023, 52(8): 0812003
Paper Information
Category: Instrumentation, Measurement and Metrology
Received: Jan. 16, 2023
Accepted: May. 10, 2023
Published Online: Sep. 26, 2023
The Author Email: Wei LIANG (wliang2019@sinano.ac.cn)
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