[1] [1] Zhang Yinghai, Huo Zeren, Wang Hongfeng. Current situation and development trend of free space optical communication [J]. Chinese Data Communications, 2004, (12): 78-82.

[2] [2] Wang Lili, Ke Xizheng, Chen Lixin. The testing system for optical power through atmosphere [J]. Chinese Journal of Light Scattering, 2006, 17(4): 378-383

[3] [3] Wang Yi, Zhou Hongxian, Ma Zhenhe. Measurement of total velocity components of particle flow with optical coherence tomography [J]. Acta Optica Sinica, 2014, 34(11): 1117002

[4] [4] Liu Man. Distribution properties of intensity and phase of speckle fields produced by vortex beam [J]. Acta Optica Sinica, 2014, 34(11): 1126001.

[5] [5] Chen Jun, Huang Dexiu, Yuan Xiuhua. Analysis of turbo coded optical wireless communication based on three different modulated modes [J]. Acta Photonica Sinica, 2007, 36(4): 694-697.

[6] [6] Muralidhar Rangaswamy, Donald Weiner. Computer generation of correlated non-Gaussian radar clutter [J]. IEEE Trans on AES, 1995, 31(1): 106-116.

[7] [7] Yao K. A representation theorem and its applications to spherically invariant random process [J]. Transonic IT, 1973, 19(5): 600-608.

[8] [8] Gong Chunwen, Li Xuebin, Li Jianyu, et al.. New method of aerosol extinction coefficient measurement [J]. Acta Optica Sinica, 2014, 34(1): 0101001.

[9] [9] E Conte, M Longo. Characterisation of radar clutter as a spherically invariant random process [C]. IEE Proceedings, 1987, 134(2): 191-197.

[10] [10] Liu Jinjing, Luo Xiaoyang, Liu Daoya. Investigation on optical property and negative refractive index in double- layer chiral structure of optical region[J]. Acta Optica Sinica, 2014, 34(1): 0116003.

[11] [11] S Watts, K D Ward. Spafial correlation in K-distributed sea clutter [C]. IEE Proceedings, 1987, 134(6): 526-532.

[12] [12] Wang Wei, Liu Wenqing, Zhang Tianshu. Continuous field measurements of stable isotopes in atmospheric water vapor by FTIR spectrometry [J]. Acta Optica Sinica, 2014, 34(1): 0130003.

[13] [13] Hector E Nistazakis, Evangelia A Karagianni, Andreas D Tsigopoulos. Average capacity of optical wireless communication system over atmospheric turbulence channels [J]. J Lightwave Technol, 2009, 27(8): 974-979.

[14] [14] Xiaoming Zhu, Joseph M Kahn. Free-space optical communication through atmospheric turbulence channels [J]. IEEE Transactions on Communications, 2002, 50(8): 1293-1300.

[15] [15] V Grigoriev, A Huppenen, M Sadovnikov. A base laser terminal for space communication [C]. IEEE Satellite Communications, 1998: 78-81.

[16] [16] Hector E Nistazakis, Evangelia A Karagianni, Andreas D Tsigopoulos. Average capacity of optical wireless communication system over atmospheric turbulence channels [J]. J Lightwave Technol, 2009, 27(8): 974-979.

[17] [17] H G Sandalidis, T A Tsiftsis. Outage probability and ergodic capacity of free- space optical links over strong turbulence [J]. Electronics Letters, 2008, 44(1): 46-47.

[18] [18] S Arnon. The effects of atmospheric turbulence and building sway on optical wireless communication systems [J]. Opt Lett, 2003, 28(2): 129-131.

[19] [19] Zhu Yaolin, An Ran, Ke Xizheng. Effect of rainfall on wireless laser communication [J]. Acta Optica Sinica, 2012, 32(12): 1206003.

[20] [20] W K Pratt. Digital Image Processing [M]. New York: John wiley & Sons, 1978.