Optical Communication Technology, Volume. 46, Issue 4, 11(2022)
Bit error rate analysis of multiple apertures transmitting space laser communication system in turbulent environment
[1] [1] KHALIGHI M A, UYSAL M J C S, IEEE T. Survey on free space optical communication: a communication theory perspective[J]. IEEE Com-munications Surveys & Tutorials, 2014, 16(4): 2231-2258.
[2] [2] ALHEADARY W G, KI-HONG P, NASIR A, et al. Free-space optical channel characterization and experimental validation in a coastal environ-ment[J]. Optics Express, 2018, 26(6): 6614-6628.
[3] [3] SONG S, LIU Y, XU T, et al. Channel prediction for intelligent FSO transmission system[J]. Optics Express, 2021, 29(17): 27882-27899.
[4] [4] HOGAN H J A A. Data demands drive free-space optics[J]. Photon spectra, 2013, 2: 32-48.
[6] [6] VETELINO F S, YOUNG C, ANDREWS L, et al. Aperture averaging effects on the probability density of irradiance fluctuations in moderate-to-strong turbulence [J]. Applied Optics, 2007, 46(11): 2099-2108.
[7] [7] BARRIOS R, DIOS F. Probability of fade and BER performance of FSO links over the exponentiated Weibull fading channel under aperture averaging[EB/OL]. (2012-10-09)[2021-09-06]. https://doi.org/10.1117/12.974646.
[8] [8] KHALIGHI M A, SCHWARTZ N, AITAMER N, et al. Fading reduc-tion by aperture averaging and spatial diversity in optical wireless systems[J]. IEEE/OSA Journal of Optical Communications and Networking, 2009, 1(6): 580-593.
[9] [9] KHODADADI H R, AYAGH M H G, MOTLAGH A C J I C. Analysis of link availability and capacity in MISO-BCH FSO systems under various turbulence conditions with pointing errors[J]. IET Communications, 2017, 11: 1305-1312.
[10] [10] ANDROUTSOS N A, NISTAZAKIS H E, CHATZIKONTIS E V, et al. Spatial jitter influence on the average BLER performance of SIMO FSO links over atmospheric turbulence channels[J]. Electronics, 2021, 10(16): 2033-2044.
[11] [11] BOUANNANE L, ABBOU M F, CHAATTIT F, et al. OOK-FSO com-munication system performance in the presence of turbulence and fog[EB/OL]. [2021-09-06]. https://ieeexplore.ieee.org/document/8723711.
[12] [12] YI X, LIU Z, YUE P J O L. Average BER of free-space optical systems in turbulent atmosphere with exponentiated Weibull distribution [J]. Optics Letters, 2012, 37(24): 5142-5144.
[13] [13] BARRIOS R, DIOS F J O E. Exponentiated weibull distribution family under aperture averaging for Gaussian beam waves[J]. Optics Express, 2012, 20(12): 13055-13064.
[14] [14] ANDREWS L C, PHILLIPS R L. Laser beam propagation through random media[M]. Second Edition. Bellingham: SPIE PRESS, 2005.
[15] [15] GRADSHTEYN I S, RYZHIK I M J M O C. Table of integrals, series, and products [J]. Mathematics of Computation, 2007, 20(96): 1157-1160.
[16] [16] ANGUITA J A, NEIFELD M A, VASIC B V J A O. Spatial correlation and irradiance statistics in a multiple-beam terrestrial free-space optical communication link[J]. Applied Optics, 2007, 46(26): 6561-6571.
[17] [17] BELMONTE A, TAYLOR M T, HOLLBERG L, et al. Effect of atmospheric anisoplanatism on earth-to-satellite time transfer over laser communication links[J]. Optics Express, 2017, 25(14): 15676-15686.
Get Citation
Copy Citation Text
GUO Zhenfeng, LIU Bo, ZHANG Hao, LIU Haifeng, LIN Wei, YAO Yuan, LU Zehui. Bit error rate analysis of multiple apertures transmitting space laser communication system in turbulent environment[J]. Optical Communication Technology, 2022, 46(4): 11
Category:
Received: Sep. 6, 2021
Accepted: --
Published Online: Oct. 16, 2022
The Author Email: