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    Journals >Laser & Optoelectronics Progress >Volume 50 >Issue 11 >Page 110102 > Article
    • Laser & Optoelectronics Progress
    • Vol. 50, Issue 11, 110102 (2013)
    Effect of Atmospheric Turbulence on the Signal-to-Noise Ratio of Free Space Optical System
    Xie Mengqi* and Ke Xizheng
    Author Affiliations
  • [in Chinese]
    • show less
    DOI: 10.3788/lop50.110102 Cite this Article Set citation alerts
    Xie Mengqi, Ke Xizheng. Effect of Atmospheric Turbulence on the Signal-to-Noise Ratio of Free Space Optical System[J]. Laser & Optoelectronics Progress, 2013, 50(11): 110102 Copy Citation Text show less
    References

    [1] Cai Yanmin, Chen Gang, Dong Zuoren, et al.. 155 Mbits/s atmospheric optical communication system and its measurement[J]. Chinese J Lasers, 2000, 27(11): 1040-1044.

    [2] Xing Jianbin, Xu Guoliang, Zhang Xuping, et al.. Effect of the atmospheric turbulenceon laser communication system[J]. Acta Photonica Sinica, 2005, 34(12): 1850-1852.

    [3] Li Fei, Wu Yi, Hou Zaihong. Analysis and experimental research on bit error rate for free-space optical communication systems through turbulent atmosphere[J]. Acta Optica Sinica, 2012, 32(6): 0606002.

    [4] Xie Weiliang, Tang Junxiong. Analysis on characterization of atmospheric optical wireless communication system based on turbo code[J]. Chinese J Lasers, 2003, 30(9): 835-838.

    [5] Jia Kejun, Ke Xizheng, Peng Duo, et al.. Design of π-rotation LDPC for atmospheric laser communication system and its performance analysis[J]. J Lanzhou University of Technology, 2008, 34(4): 109-113.

    [6] Wang Huiqin, Ke Xizheng, Zhao Li. Free space optical communication of MIMO based on orthogonal space-time coding[J]. Science China Information Science, 2009, 39(8): 896-902.

    [7] Ke Xizheng, Yin Zhiyun. Coding Theory of Free Space Optical Communication System[M]. Beijing: Science Press, 2008. 241-248.

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

    [9] Xu Guoliang, Zhang Xuping, Wei Junwei, et al.. Influence of atmospheric turbulence on FSO link performance[C]. SPIE, 2004, 5281: 816-823.

    [10] Rao Ruizhong. Light Propagation in the Turbulent Atmosphere[M]. Hefei: Anhui Science & Technology Publishing House, 2005. 183-184.

    [11] Rao Ruizhong, Wang Shipeng, Liu Xiaochun, et al.. Probabilitydistribution of laser irradiance scintillation in a real turbulent atmosphere[J]. Acta Optica Sinica, 1999, 19(1): 81-86.

    [12] Liu Jian, Ke Xizheng, Zhao Li, et al.. Experimental measurement of atmospheric laser communication[J]. Acta Photonica Sinica, 2007, 36(S1): 10-13.

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

    CLP Journals

    [1] Wu Yingfa, Qiu Xuanbing, Li Chuanliang, Li Jinhong, Wei Jilin. Design and Performance Testing of Long-Optical-Path Atmospheric Turbulence Simulator[J]. Chinese Journal of Lasers, 2015, 42(4): 413004

    [2] Kong Yingxiu, Ke Xizheng, Yang Yuan. Influence Research of Atmospheric Turbulence on Space Coherent Optical Communications[J]. Laser & Optoelectronics Progress, 2015, 52(8): 80601

    [3] Guo Qiang. Performance Analysis of Improved T-PPM Technology on Atmospheric Turbulence[J]. Laser & Optoelectronics Progress, 2014, 51(8): 80605

    [4] Xie Mengqi, Ke Xizheng. Cyclic Spectral Density Analysis of Free Space Optical Sub-Carrier Signals[J]. Acta Optica Sinica, 2015, 35(2): 201001

    [5] Liang Luyang, Meng Wen, Li Yunxia, Zhang Wenjie, Han Xiaofei. Hybrid MPPM Modulation Scheme Based on Modified BPSK in Atmospheric Optical Communication[J]. Laser & Optoelectronics Progress, 2015, 52(10): 100605

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    Xie Mengqi, Ke Xizheng. Effect of Atmospheric Turbulence on the Signal-to-Noise Ratio of Free Space Optical System[J]. Laser & Optoelectronics Progress, 2013, 50(11): 110102
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