Optimal Combiners in Pre-Amplified Optical Wireless Systems under Medium-to-Strong Atmospheric Turbulence

Image Processing & Communications Pub Date : 2016-03-01 DOI:10.1515/ipc-2016-0002
N. Sagias, A. Boucouvalas, K. Yiannopoulos, M. Uysal, Zabih Ghassemlooy
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引用次数: 1

Abstract

Abstract In this work we analytically investigate optimal combiners for pre-amplified diversity receivers that operate under medium-to-strong atmospheric turbulence. We first demonstrate that the combiner performance is strongly affected by the existence of a signal-amplified spontaneous emission beat noise at the output of the photodetector. Due to the signal-dependent nature of noise, the optimal combiner can be classified as a hybrid one, of which performance is between the well-known equal-gain and maximal-ratio combiner architectures. Having established the optimal design, we further assess the proposed combiner performance over gamma-gamma and negative-exponential fading environments.
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中强大气湍流下预放大光学无线系统的最优组合器
在本研究中,我们分析研究了在中强大气湍流下工作的预放大分集接收机的最佳组合。我们首先证明了合成器的性能受到光电探测器输出端存在的信号放大自发发射拍噪声的强烈影响。由于噪声的信号依赖性,最优组合器可以被归类为混合组合器,其性能介于众所周知的等增益和最大比组合器架构之间。在确定了优化设计之后,我们进一步评估了所提出的组合器在gamma-gamma和负指数衰落环境下的性能。
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Image Processing & Communications
Image Processing & Communications
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