Analysis of Performance for Free-Space Optical Communications with Rain or Fog Weather Condition

[3] [3] S. SheikhMuhamma, B. Flecker, E. Leitgeb et al.. Characterization of fog attenuation in terrestrial free space optical links［J］. Opt. Eng., 2007, 46(6): 066011

[4] [4] Wajdi Al-Khateeb, Rafiqul Islam. Rain fade analysis for practical free space optic link in tropical region［C］. 4th International Conference on Mechatronice (ICOM), 2011

[5] [5] ITU-R. Attenuation by Atmospheric Gases [S]. ITU, 2012, ITU-R P.676-9

[6] [6] Yang Ruike, Ma Chunlin, Han Xiang′e et al.. Study of the attenuation characteristics of laser propagation in the atmosphere ［J］. Infrared and Laser Engineering, 2007, 36(suppl.): 415～418

[7] [7] J. Joss, J. C. Thams, A. Waldvogel. The variation of raindrop size distribution at Lacarno [C]. Proc. Int. Conf. Cloud Physics, 1968, 369～373

[8] [8] Zhao Zhenwei. The analytic approximation of rain attenuation [J]. Chinese J. Radio Science, 1996, 11(1): 51～53

[9] [9] Zhao Zhenwei. Computed transmission through rain in 1~400 GHz in Guangzhou [J]. Chinese J. Radio Science, 1996, 11(2): 10～17

[10] [10] T. Ho, S. Trisno, A. Desai. Performance and analysis of reconfigurable hybrid FSO/RF wireless networks［C］. SPIE, 2005, 5712: 119～130

[11] [11] P. W. Kruse, L. D. mcGlauchlin, R. B. McQuistan. Elements of Infrared Technology: Generation, Transmission and Detection [M]. New York: Wiley, 1962. 448

[12] [12] I. Kim, B. McArthur, E. Korevaar. Comparison of lasr beam propagation at 785 and 1550 nm in fog and haze for optical wireless communication [C]. SPIE, 2001, 4214: 26～37

[13] [13] M. Al Naboulsi, H. Sizum, F.de Fornel. Fog attenuation prediction for optical and infrared waves［J］. Opt. Eng., 2004, 43(2): 319～329

[14] [14] O. Bouchet, T. Marquis. FSO and quality of service software prediction［C］. SPIE, 2005, 5892: 58920

[15] [15] J. Llorca, A. Desai, E. Baskaran. Optimizing performance of hybrid FSO/RF networks in realistic dynamic scenarios［C］. SPIE, 2005, 5892: 589207

[16] [16] ITU-R. Prediction Methods Required for the Design of Terrestrial Free-Space Optical Links［S］. ITU, 2007, ITU-R P.1814

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[1] Gao Kun, Nie Min, Yang Guang, Pei Changxing. Performance of Free-Space Quantum Communication in Context of Rainfall[J]. Laser & Optoelectronics Progress, 2017, 54(1): 12701

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Wang Han, Zhang Tao. Analysis of Performance for Free-Space Optical Communications with Rain or Fog Weather Condition[J]. Laser & Optoelectronics Progress, 2012, 49(8): 80101

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Paper Information

Category: Atmospheric Optics and Oceanic Optics

Received: Mar. 15, 2012

Accepted: --

Published Online: Jun. 7, 2012

The Author Email: Wang Han (hanwang1214@126.com)

DOI:10.3788/lop49.080101

Topics

laser devices and laser physics

Lasers and Laser Optics

Laser physics

laser manufacturing

Instrumentation, Measurement and Metrology