Availability Study of Atmospheric Gaussian Pulse Propagation with Normally Distributed Time Jitter for Optical Wireless Communication Systems

D. Oreinos, P. J. Gripeos, E. Kapotis, E. Roditi, H. Nistazakis, G. Tombras
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Abstract

Free Space Optical communications are steadily emerging, due to the numerous and various benefits that they offer. Although FSO systems are based on a cheap, safe and efficient technology, there are many degrading effects that should be taken into account. In particular, long and fast links suffer from many existing effects, acting cumulatively, resulting in a not negligible deterioration of both performance and availability, as their length or bit rate increases. And that is because of the FSO pulse propagation through dispersive atmospheric channels, while short timed pulses are prone to be misdetected in adjacent time slots at the receiver, leading to disturbances in the bit stream, consequently. This work includes the estimation of FSO link performance, focusing on both the group velocity dispersion and the time jitter effects, calculated in terms of both probability of fade and outage probability, using closed form mathematical expressions. Then, interesting numerical results and conclusions are presented for typical FSO links' parameters.
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具有正态分布时间抖动的大气高斯脉冲传输在光通信系统中的有效性研究
自由空间光通信正在稳步发展,因为它们提供了众多和各种各样的好处。尽管无线光通信系统是基于一种廉价、安全和高效的技术,但仍有许多退化效应需要考虑。特别是,长链接和快速链接受到许多现有影响的影响,这些影响累积起来,随着它们的长度或比特率的增加,导致性能和可用性的不可忽视的恶化。这是因为FSO脉冲通过色散大气信道传播,而短时间脉冲在接收机的相邻时隙中容易被误检测,从而导致比特流中的干扰。这项工作包括对FSO链路性能的估计,重点关注群速度色散和时间抖动效应,根据衰落概率和中断概率计算,使用封闭形式的数学表达式。然后,对典型的FSO链路参数给出了有趣的数值结果和结论。
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