Research on underwater transmission characteristics of subcarrier modulated pulse lidar

Yuan Zhi′an; Wang Ling; Xu Ke; Deng Bin; Liu Xinpu; Zhu Jiahua; Ma Yanxin

doi:10.3788/irla20200185

[1] Seibert Q Duntley. Light in the Sea [J]. Journal of the Optical Society of America, 1963, 53(2): 214-233.

[6] Hua Kangjian, Liu Bo, Fang Liang, et al. Detection efficiency for underwater coaxial photon-counting lidar[J]. Applied Optics, 2020, 59(9): 2797-2809.

[8] Mullen L, Herczfeld P R, Contarino V M. Modulated pulse LIDAR system for shallow underwater target detection[C]// IEEE Proceedings of Oceans Engineering for Today′s Technology and Tomorrow′s Preservation, 1994, 1: 835-839.

[10] Luchinin A, Dolin L, Kirillin M. Time delay and width variation caused by temporal dispersion of a complex modulated signal in underwater lidar[J]. Applied Optics, 2019, 58(18): 5074-5081.

[12] Mullen L J, Vieira A J C, Herezfelg P R, et al. Application of RADAR technology to aerial LIDAR systems for enhancement of shallow underwater target detection[J]. IEEE Transactions on Microwave Theory and Techniques, 1995, 43(9): 2370-2377.

[14] Toublanc D. Henyey-Greenstein and Mie phase functions in Monte Carlo radiative transfer computations[J]. Applied Optics, 1996, 35(18): 3270-3274.

[15] Perez P, Jemison W D, Mullen L, et al. Techniques to enhance the performance of hybrid lidar-radar ranging systems [C]//Oceans 2012 IEEE, 2012: 1-6.

[16] Mullen L J, Contarino V M. Hybrid LIDAR-radar: Seeing through the scatter [J]. IEEE Microwave Magazine, 2000, 1(3): 42-48.

[17] Lim H, Parka J. Comparison of time corrections using charge amounts, peak values, slew rates, and signal widths in leading-edge discrimina-tors[J]. Review of Scientific Instruments, 2003, 74(6): 3115-3119.