水平大气能见度对深空激光通信速率的影响 下载: 597次
李勃, 佟首峰, 张雷, 刘禹彤. 水平大气能见度对深空激光通信速率的影响[J]. 光学学报, 2017, 37(10): 1006003.
Bo Li, Shoufeng Tong, Lei Zhang, Yutong Liu. Influence of Horizontal Atmospheric Visibility on Deep-Space Laser Communication Rate[J]. Acta Optica Sinica, 2017, 37(10): 1006003.
[1] RichardR. Space communication and navigation testbeds: Communications technology for exploration[R]. Ohio: NASA Glenn Research Center, 2013: 2- 25.
RichardR. Space communication and navigation testbeds: Communications technology for exploration[R]. Ohio: NASA Glenn Research Center, 2013: 2- 25.
[2] 姜会林, 佟首峰. 空间激光通信技术与系统[M]. 北京: 国防工业出版社, 2010: 10- 20.
姜会林, 佟首峰. 空间激光通信技术与系统[M]. 北京: 国防工业出版社, 2010: 10- 20.
JiangHuilin, TongShoufeng. The technologies and systems of space laser communication[M]. Beijing: National Defence Industry Press, 2010: 10- 20.
JiangHuilin, TongShoufeng. The technologies and systems of space laser communication[M]. Beijing: National Defence Industry Press, 2010: 10- 20.
[3] Boroson DM, Robinson BS, Murphy DV, et al. Overview and results of the lunar laser communication demonstration[C]. SPIE, 2014, 8971: 89710S.
Boroson DM, Robinson BS, Murphy DV, et al. Overview and results of the lunar laser communication demonstration[C]. SPIE, 2014, 8971: 89710S.
[4] BiswasA, HemmatiH, PiazzollaS, et al. Deep-space optical terminals (DOT) systems engineering[R]. California: California Institute of Technology,Jet Propulsion Laboratory, 2010, 11: 1- 38.
BiswasA, HemmatiH, PiazzollaS, et al. Deep-space optical terminals (DOT) systems engineering[R]. California: California Institute of Technology,Jet Propulsion Laboratory, 2010, 11: 1- 38.
[5] Schulz KJ, RushJ. Optical link study group (OLSG) final report[R]. Interagency Operations Advisory Group,Tech Rep, 2012: 1- 164.
Schulz KJ, RushJ. Optical link study group (OLSG) final report[R]. Interagency Operations Advisory Group,Tech Rep, 2012: 1- 164.
[6] 向劲松, 吴涛, 黄胜, 等. 串行级联脉冲位置调制码辅助的时隙同步技术[J]. 光学学报, 2016, 36(8): 0806006.
向劲松, 吴涛, 黄胜, 等. 串行级联脉冲位置调制码辅助的时隙同步技术[J]. 光学学报, 2016, 36(8): 0806006.
[7] Bohren CF, Huffman DR. Absorption and scattering of light by small particles[M]. Chichester: Wiley-Interscience, 1983: 328.
Bohren CF, Huffman DR. Absorption and scattering of light by small particles[M]. Chichester: Wiley-Interscience, 1983: 328.
[9] Middleton W EK. Vision through the atmosphere[M]. Toronto: University of Toronto Press, 1957.
Middleton W EK. Vision through the atmosphere[M]. Toronto: University of Toronto Press, 1957.
[10] Kim II, McArthur B, Korevaar E J. Comparison of laser beam propagation at 785 nm and 1550 nm in fog and haze for optical wireless communications[C]. SPIE, 2001, 4214: 26- 37.
Kim II, McArthur B, Korevaar E J. Comparison of laser beam propagation at 785 nm and 1550 nm in fog and haze for optical wireless communications[C]. SPIE, 2001, 4214: 26- 37.
[11] 余娟, 龚威, 朱忠敏. 高斯曲线优化能见度与气溶胶光学厚度转换模型[J]. 遥感学报, 2011, 15(5): 1008-1023.
余娟, 龚威, 朱忠敏. 高斯曲线优化能见度与气溶胶光学厚度转换模型[J]. 遥感学报, 2011, 15(5): 1008-1023.
Yu Juan, Gong Wei, Zhu Zhongmin. Optimized transformation model of aerosol optical depth and visibility based on Gaussian curve[J]. Journal of Remote Sensing, 2011, 15(5): 1008-1023.
[12] 李丽芳. 大气气溶胶粒子散射对激光大气传输影响的研究[D]. 山西: 中北大学, 2013: 43- 44.
李丽芳. 大气气溶胶粒子散射对激光大气传输影响的研究[D]. 山西: 中北大学, 2013: 43- 44.
LiLifang. The study of atmospheric aerosol particles scattering impact on laser propagation in the atmosphere[D]. Shanxi: North University of China, 2013: 43- 44.
LiLifang. The study of atmospheric aerosol particles scattering impact on laser propagation in the atmosphere[D]. Shanxi: North University of China, 2013: 43- 44.
[13] 赫马提. 深空光通信[M]. 王平, 孙威, 译. 北京: 清华大学出版社, 2009: 194- 195.
赫马提. 深空光通信[M]. 王平, 孙威, 译. 北京: 清华大学出版社, 2009: 194- 195.
HemmatiH. Deepspace optical communications[M]. Wang Ping, Sun Wei, Transl. Beijing: Tsinghua University Press, 2009: 194- 195.
HemmatiH. Deepspace optical communications[M]. Wang Ping, Sun Wei, Transl. Beijing: Tsinghua University Press, 2009: 194- 195.
[14] 李晓峰. 星地激光通信链路原理与技术[M]. 北京: 国防工业出版社, 2007: 83- 84.
李晓峰. 星地激光通信链路原理与技术[M]. 北京: 国防工业出版社, 2007: 83- 84.
LiXiaofeng. The principle and technology of the satellite-to-ground laser communication links[M]. Beijing: National Defence Industry Press, 2007: 83- 84.
LiXiaofeng. The principle and technology of the satellite-to-ground laser communication links[M]. Beijing: National Defence Industry Press, 2007: 83- 84.
[15] 韩永, 饶瑞中, 王英俭, 等. 大气气溶胶散射相函数反演算法[J]. 红外与激光工程, 2012, 41(11): 3050-3054.
韩永, 饶瑞中, 王英俭, 等. 大气气溶胶散射相函数反演算法[J]. 红外与激光工程, 2012, 41(11): 3050-3054.
Han Yong, Rao Ruizhong, Wang Yingjian, et al. Inversive method on atmospheric aerosol scattering phase function[J]. Infrared and Laser Engineering, 2012, 41(11): 3050-3054.
[16] 陈纯毅, 杨华民, 姜会林, 等. 云层信道光通信链路误码率及性能改善途径分析[J]. 系统仿真学报, 2009, 21(5): 1245-1248.
陈纯毅, 杨华民, 姜会林, 等. 云层信道光通信链路误码率及性能改善途径分析[J]. 系统仿真学报, 2009, 21(5): 1245-1248.
Chen Chunyi, Yang Huamin, Jiang Huilin, et al. Analysis of bit-error-rate and performance enhancement ways for optical communication link through cloud channel[J]. Journal of System Simulation, 2009, 21(5): 1245-1248.
[17] 顾吉林. 典型天气大气辐射传输特性研究[D]. 大连: 大连海事大学, 2012: 36- 39.
顾吉林. 典型天气大气辐射传输特性研究[D]. 大连: 大连海事大学, 2012: 36- 39.
GuJilin. Research of atmosphere radiative transmission characteristics for the typical weather[D]. Dalian: Dalian Maritime University, 2012: 36- 39.
GuJilin. Research of atmosphere radiative transmission characteristics for the typical weather[D]. Dalian: Dalian Maritime University, 2012: 36- 39.
[18] HennigerH, GiggenbachD, HorwathJ, et al. Evaluation of optical up- and downlinks from high altitude platforms using IM/DD[C]. SPIE, 2005, 5712: 24- 36.
HennigerH, GiggenbachD, HorwathJ, et al. Evaluation of optical up- and downlinks from high altitude platforms using IM/DD[C]. SPIE, 2005, 5712: 24- 36.
李勃, 佟首峰, 张雷, 刘禹彤. 水平大气能见度对深空激光通信速率的影响[J]. 光学学报, 2017, 37(10): 1006003. Bo Li, Shoufeng Tong, Lei Zhang, Yutong Liu. Influence of Horizontal Atmospheric Visibility on Deep-Space Laser Communication Rate[J]. Acta Optica Sinica, 2017, 37(10): 1006003.