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Opto-Electronic Advances
Vol. 3, Issue 2, 190044-1 (2020)

True random coded photon counting Lidar

Bo Liu^{1、2、3、*}, Yang Yu^1、2, Zhen Chen^1、3, and Weiqiang Han^1、3

Author Affiliations

¹Institute of Optics and Electronics, Chinese Academy of Sciences, Chengdu 610209, China

²University of Chinese Academy of Sci-ences, Beijing 100049, China

³Key Laboratory of Science and Technology on Space Optoelectronic Precision Measurement, Chinese Academy of Sciences, Chengdu 610209, China

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DOI: 10.29026/oea.2020.190044 Cite this Article

Bo Liu, Yang Yu, Zhen Chen, Weiqiang Han. True random coded photon counting Lidar[J]. Opto-Electronic Advances, 2020, 3(2): 190044-1 Copy Citation Text

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References

[1] A McCarthy, R J Collins, N J Krichel, V Fernández, A M Wallace et al. Long-range time-of-flight scanning sensor based on high-speed time-correlated single-photon counting. Appl Opt, 48, 6241-6251(2009).

[2] M A Albota, R M Heinrichs, D G Kocher, R M Marino, D G Fouche et al. Three-dimensional imaging laser radar with a photon-counting avalanche photodiode array and microchip laser. Appl Opt, 41, 7671-7678(2002).

[3] J Degnan, D Wells, R Machan, E Leventhal. Second generation airborne 3D imaging lidars based on photon counting. Proc SPIE, 6771, 67710N(2007).

[4] J J Degnan. Scanning, multibeam, single photon lidars for rapid, large scale, high resolution, topographic and bathymetric mapping. Remote Sens, 8, 958(2016).

[5] N Takeuchi, N Sugimoto, H Baba, K Sakurai. Random modulation CW lidar. Appl Opt, 22, 1382-1386(1983).

[6] X L Sun, J B Abshire, M A Krainak, W B Hasselbrack. Photon counting pseudorandom noise code laser altimeters. Proc SPIE, 6771, 677100(2007).

[7] P A Hiskett, C S Parry, A McCarthy, G S Buller. A photon-counting time-of-flight ranging technique developed for the avoidance of range ambiguity at gigahertz clock rates. Opt Express, 16, 13685-13698(2008).

[8] N J Krichel, A McCarthy, G S Buller. Resolving range ambiguity in a photon counting depth imager operating at kilometer distances. Opt Express, 18, 9192-9206(2010).

[9] P Rieger, A Ullrich. A novel range ambiguity resolution technique applying pulse-position modulation in time-of-flight ranging applications. Proc SPIE, 8379, 83790R(2012).

[10] Y F Zhang, Y He, F Yang, Y Luo, W B Chen. Three-dimensional imaging Lidar system based on high speed pseudorandom modulation and photon counting. Chin Opt Lett, 14, 111101(2016).

[11] F Yang, X Zhang, Y He, W B Chen. High speed pseudorandom Modulation fiber laser ranging system. Chin Opt Lett, 12, 082801(2014).

[12] Q Zhang, H W Soon, H T Tian, S Fernando, Y J Ha et al. Pseudo-random single photon counting for time-resolved optical measurement. Opt Express, 16, 13233-13239(2008).

[13] Q Zhang, L Chen, N G Chen. Pseudo-random single photon counting: a high-speed implementation. Biomed Opt Express, 1, 41-46(2010).

[14] F Zhang, P F Du, Q Liu, M L Gong, X Fu. Adaptive strategy for CPPM single-photon collision avoidance LIDAR against dynamic crosstalk. Opt Express, 25, 12237-12250(2017).

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Bo Liu, Yang Yu, Zhen Chen, Weiqiang Han. True random coded photon counting Lidar[J]. Opto-Electronic Advances, 2020, 3(2): 190044-1

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