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Wireless Personal Communications
Published in: Wireless Personal Communications 2/2017

24-11-2016

Performance Evaluation of Atmospheric Optical Communications Links Affected by Generalized Málaga Turbulence Model

Authors: Francisco Javier López-González, José María Garrido-Balsells, Antonio Jurado-Navas, Miguel Castillo-Vázquez, Antonio Puerta-Notario

Published in: Wireless Personal Communications | Issue 2/2017

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Abstract

In this paper, the performance analysis of atmospheric optical communications links is analyzed in terms of the average bit error rate. To this end, the optical irradiance scintillation due to the turbulence effects is modeled by a generalization of the Málaga or \({\mathcal {M}}\) distribution. In particular, the behavior of the atmospheric optical channel is treated as a superposition of a finite number of Generalized-K distributed sub-channels, controlled by a discrete Negative-Binomial distribution dependent on the turbulence parameters. All previous results derived until now were restricted to natural numbers for those turbulence parameters. Here, new analytical formalisms for evaluating the average bit error rate performance are proposed. These formalisms are based on considering the most accurate scenario in which such turbulence parameters are extended to real numbers. Theses new expressions are a valuable tool for analysing the performance of atmospheric optical links.
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Literature
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Zhu, X., & Kahn, J. M. (2002). Free-space optical communication through atmospheric turbulence channels. IEEE Transactions on Communications, 50, 1293.CrossRef
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Nistazakis, H. E., Tsiftsis, T. A., & Tombras, G. S. (2009). Performance analysis of free-space optical communication systems over atmospheric turbulence channels. IET Communications, 3, 1402.CrossRef
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Jurado-Navas, A., Garrido-Balsells, J. M., Paris, J. F., Castillo-Vázquez, M., & Puerta-Notario, A. (2011). General analytical expressions for the bit error rate of atmospheric optical communication systems. Optics Letters, 36, 4095.CrossRef
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Jurado-Navas, A., Garrido-Balsells, J. M., Paris, J. F., Castillo-Vázquez, M., & Puerta-Notario, A. (2014). General analytical expressions for the bit error rate of atmospheric optical communication systems: Erratum. Optics Letters, 39, 1.CrossRef
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Jurado-Navas, A., Garrido-Balsells, J. M., Paris, J. F., & Puerta-Notario, A. (2011). A unifying statistical model for atmospheric optical scintillation. In J. Awrejcewicz (Ed.), Numerical simulations of physical and engineering processes (pp. 181–206). Rijeka: InTech.
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Al-Habash, M. A., Andrews, L. C., & Phillips, R. L. (2001). Mathematical model for the irradiance probability density function of a laser beam propagating through turbulent media. Optical Engineering, 40, 1554–1562.CrossRef
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Garrido-Balsells, J. M., Jurado-Navas, A., Paris, J. F., Castillo-Vázquez, M., & Puerta-Notario, A. (2015). Novel formulation of the \({\cal{M}}\) model through the Generalized-K distribution for atmospheric optical channels. Optics Express, 23, 6345–6358.CrossRef
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Garrido-Balsells, J. M., López-González, F. J., Jurado-Navas, A., Castillo-Vázquez, M., & Puerta Notario, A. (2015). General closed-form bit-error rate expressions for coded M-distributed atmospheric optical communications. Optics Letters, 40, 2937–2940.CrossRef
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Metadata
Title
Performance Evaluation of Atmospheric Optical Communications Links Affected by Generalized Málaga Turbulence Model
Authors
Francisco Javier López-González
José María Garrido-Balsells
Antonio Jurado-Navas
Miguel Castillo-Vázquez
Antonio Puerta-Notario
Publication date
24-11-2016
Publisher
Springer US
Published in
Wireless Personal Communications / Issue 2/2017
Print ISSN: 0929-6212
Electronic ISSN: 1572-834X
DOI
https://doi.org/10.1007/s11277-016-3909-1

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