An exact expression for symbol-error rate of multipulse PPM technique in free-space optics with gamma-gamma channels

Ahmed E. Morra, Haitham S. Khallaf, H. Shalaby, Z. Kawasaki
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引用次数: 0

Abstract

Atmospheric turbulence, also called scintillation, is one of the major challenges that face free space optics (FSO) communications. In this paper, we derive both exact and approximate expressions for the average symbol-error rate (SER) of free-space optics systems adopting multipulse PPM (MPPM) technique in gamma-gamma channels. Our expressions are then verified by getting the same results using lognormal and exponential channel expressions where lognormal and exponential distributions are valid only for weak and strong turbulence, respectively. As the computation of the exact expression is time consuming, we get an approximate expression based on Gauss-Laguerre quadrature. Both expressions produce almost the same results. Finally, we make a comparison between the average SER performance of MPPM and PPM assuming equal average energy per bit and equal data rate. We found that the performance of MPPM is better than that of PPM in case of weak turbulence but at strong turbulence both MPPM and PPM have nearly the same performance.
自由空间光学伽玛通道中多脉冲PPM技术符号误差率的精确表达式
大气湍流,也称为闪烁,是自由空间光学(FSO)通信面临的主要挑战之一。本文给出了采用多脉冲PPM (MPPM)技术的自由空间光学系统在γ - γ信道中平均符号误差率(SER)的精确和近似表达式。然后通过使用对数正态和指数通道表达式得到相同的结果来验证我们的表达式,其中对数正态和指数分布分别仅对弱湍流和强湍流有效。由于精确表达式的计算比较耗时,我们得到了一个基于高斯-拉盖尔正交的近似表达式。这两种表达式产生的结果几乎相同。最后,我们比较了MPPM和PPM在平均每比特能量相等和数据速率相等的情况下的平均SER性能。我们发现,在弱湍流条件下,MPPM的性能优于PPM,而在强湍流条件下,MPPM和PPM的性能几乎相同。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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