[1] Li Jun, Gong Wei, Mao Feiyue, et al.. Dual field of view lidar for observing atmospheric aerosols over Wuhan[J]. Acta Optica Sinica, 2013, 33(12): 1201001.

[2] Cao Nianwen, Yan Peng. Aerosol classifications method by lidar measurements[J]. Acta Optica Sinica, 2014, 34(11): 1101003.

[3] Zhai Guojun, Wang Keping, Liu Yuhong. Technology of airborne laser bathymetry[J].Hydrographic Surveying and Charting, 2014, 34(2): 72-75.

[4] Lu Yimin, Du Zhufeng, Huang Tiexia, et al.. Study on lidar receiver field of view[J]. Laser Technology, 1999, 23(1): 46-50.

[5] Dolin L S, Savel′ev V A. Characterization of back scattering signal at pulse radiation of turbid medium by a narrow directional light beam[J]. Izvestiya, Atmospheric and Oceanic Physics, 1971, 7(5): 505-510.

[6] Dolin L S, Levin I M. Theory of Underwater Vision (Reference Book)[D]. Leningrad：Gidrometeoizdat, 1991.

[7] Kopilevich Y, Feygels V, Surkov A. Mathematical modeling of input signals for oceanographic lidar systems[C]. SPIE, 2003, 5155: 30-39.

[8] Kopilevich Y I, Surkov A G. Mathematical modeling of the input signals of oceanological lidars[J]. J Opt Technol, 2008, 75(5): 321-326.

[9] Dong Zhiwei, Zheng Liwei, Fan Guoxiang, et al.. Impaction of signal noise ratio for mapping accuracy of lidar[J]. Acta Optica Sinica, 2014, 34(s2): s228002.

[10] Feigels V I. Lidars for oceanological research: criteria for comparison, main limitations perspectives[C]. SPIE, 1992, 1750: 473-484.

[11] Sakitt B. Indices of discriminability[J]. Nature, 1973, 241(5385): 133-134.

[12] Feigels V I, Kopilevich Y I. Russian airborne lidar systems: comparative analysis and new ideas[C]. SPIE，2003, 3761: 130-141.

[13] Guenther G C. Airborne Laser Hydrography: System Design and Performance Factors[R]. Rockville: MD National Oceanic and Atmospheric Administration, 1985.

[14] Feigels V I, Kopilevich Yu I. Particularities of hydro lidar missions in the Asia-Pacific region[C]. SPIE, 2014, 9262: 92620X.

[15] Feigels V I. Prediction of SHOALS-3000 Performance in China[R]. Optech International, 2009.

[16] Wang Quandong, Chen Weibiao, Lu Yutian, et al.. Analysis of relationship between parameter choice of airborne laser bathymetry and maximum penetrability[J]. Acta Optica Sinica, 2003, 23(10): 1255-1260.

[17] Liu Xiqing. Map of the newwst bottom material types of China off shore continental shelf[J]. Marine Geology & Quaternary Geology, 1992, 12(4): 11-20.

[18] Maffione R A, Dana D R. In-situ characterization of optical backscattering and attenuation of lidar applications[C]. SPIE, 1996, 2964: 152-162.

[19] Wang Guifen, Cao Wenxi, Yang Dingtian. Variation in downwelling diffuse attenuation coefficient in the northern South China Sea[J]. Chinese Journal of Oceanology and Limnology, 2008, 26(3): 323-333.

[20] Guenther Gary C, Thomas Robert W. Effects of propagation - induced pulse stretching in airborne laser hydrography[C]. SPIE, 1984, 489: 287-296.

[21] Bufton Jack L, Hoge Frank E, Swift Robert N. Airborne measurements of laser backscatter from the ocean surface[J]. Appl Opt, 1983,22(17): 2603-2618.

[22] Carr D. A Study of the Target Detection Capabilities of an Airborne Lidar Bathymetry System[D]. Atlanta∶Georgia Institute of Technology, 2013.

[23] Kung R T V, Itzkan I. Absolute oil fluorescence conversion efficiency[J]. Appl Opt, 1976, 15(2): 409-415.

[24] Austin R W. The Remote Sensing of Spectral Radiance from Below the Ocean Surface[M]. London: Academic Press, 1974: 317-344.