Improvement of Ground to Satellite FSO Link Performance Using Transmit Diversity in Weak Atmospheric Turbulence
Improvement of Ground to Satellite FSO Link Performance Using Transmit Diversity in Weak Atmospheric Turbulence
出处
《通讯和计算机(中英文版)》
2011年第1期63-70,共8页
Journal of Communication and Computer
Free space optical (FSO) communication, log-normal channel, atmospheric turbulence, modulation, diversity, bit error rate (BER).
参考文献16
-
1J.A. Louthain, J.D. Schmidt, Anisoplanatism in airborne laser communication, Optics Express (2008) 10769-10785.
-
2H. Willerbrand, B. Ghuman, Fiber optics without the fiber, in: IEEE Spectrum, 2001, pp. 40-45.
-
3D. Kedar, S. Arnon, Urban optical wireless communication networks: The main challenges and possible solutions, IEEE Communication Mag. 42 (2004) 2-7.
-
4L.C. Andrews, R.L. Phillips, C.Y. Hopen, Aperture averaging of optical scintillations: Power fluctuations and the temporal spectrum, Waves Random Media 10 (2000) 53-70.
-
5E.J. Lee, V.W.S. Chan, Optical communications over the clear turbulent channel using diversity, IEEE Journal on Selected Areas in Communications 22 (2004) 1896-1906.
-
6S.M. Hass, Capacity of and coding for multiple-aperture, wireless, optical communication, Ph.D. dissertation, Massachusetts Institute of Technology, 2003.
-
7M.A. Khalighi, N. Schwartz, N. Aitamer, S. Bourennane, Fading reduction by aperture averaging and spatial diversity in optical wireless systems, Journal of Optical Communication and Networking 1 (2009) 580-593.
-
8A. Belmonte, J.M. Kahn, Performance of synchronous receivers using atmospheric compensation techniques,Optics Express 16 (2008) 14151-14162.
-
9L. Jia, J.Q. Liu, D.P. Taylor, Optical communication using subcarrier PSK intensity modulation through atmospheric turbulence channel, IEEE Transactions on Communication 55 (2007) 1598-1606.
-
10X. Zhu, J.M. Kahn, Free-space.optical communication through atmospheric turbulence channels, IEEE Transactions on Communication 50 (2007) 1293-1300.
-
1Peng Jia,Sijiong Zhang.Simulation and fabrication of the atmospheric turbulence phase screen based on a fractal model[J].Research in Astronomy and Astrophysics,2012,12(5):584-590. 被引量:3
-
2XU Wei,ZHANG Jian-hua,ZHANG Ping.Performance of transmit diversity assisted amplify-and-forward relay system with partial relay selection in mixed Rayleigh and Rician fading channels[J].The Journal of China Universities of Posts and Telecommunications,2011,18(5):37-41.
-
3SunRui,SunHong,YaoTianren.Application of transmit diversity for improved robust watermarking[J].Journal of Systems Engineering and Electronics,2004,15(2):163-170. 被引量:1
-
4ZHANG Yuanyuan,XU Mingwei,YANG Yuan,WANG Ning.MAVIN:A MAC Address Coding Based Virtual Network Platform[J].China Communications,2016,13(S1):132-145.
-
5FEI ZeSong,DING HaiChuan,XING ChengWen,NI JiQing,KUANG JingMing.Performance analysis for range expansion in heterogeneous networks[J].Science China(Information Sciences),2014,57(8):48-57. 被引量:11
-
6SUN Yanhua,YANG Yi,LI Yonghua,ZHANG Yanhua.Full Diversity Reception Based on Dempster-Shafer Theory for Network Coding with Multiple-Antennas Relay[J].China Communications,2015,12(10):76-90. 被引量:1
-
7王乐,赵生妹,巩龙延,程维文.Free-space measurement-device-independent quantum-key-distribution protocol using decoy states with orbital angular momentum[J].Chinese Physics B,2015,24(12):238-245. 被引量:18
-
8Wang Haitao,Dong Xinmin,Xue Jianping,Liu Jiaolong.Dynamic modeling of a hose-drogue aerial refueling system and integral sliding mode backstepping control for the hose whipping phenomenon[J].Chinese Journal of Aeronautics,2014,27(4):930-946. 被引量:19
