Design criterion of polarization-time codes for optical fiber channels

É. Awwad, G. R. Othman, Y. Jaouën
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引用次数: 1

Abstract

Coherent detection with Polarization Multiplexing (PolMux) is the most promising technique for future optical fiber transmission systems. However, the optical channel suffers from non-unitary impairments known as Polarization Dependent Loss (PDL). Space-Time coding, originally designed for wireless Rayleigh fading channels, was proven to be capable of mitigating PDL. Coding gains of ST codes were evaluated through simulations and experiments that showed differences in their performance on the optical channel and on the wireless channel. In this paper, we derive an upper bound of the pairwise error probability of an optical channel considering the PDL effect. This upper bound explains the performance of ST codes used to mitigate PDL and yields the design criterion that a code should satisfy in order to completely mitigate PDL.
光纤信道偏振时间码设计准则
偏振复用(PolMux)相干检测是未来光纤传输系统中最有前途的技术。然而,光通道遭受称为偏振相关损耗(PDL)的非单一损伤。空时编码,最初设计用于无线瑞利衰落信道,被证明能够减轻PDL。通过模拟和实验对ST码的编码增益进行了评估,显示了它们在光信道和无线信道上的性能差异。在本文中,我们推导了考虑PDL效应的光通道成对误差概率的上界。这个上限解释了用于减轻PDL的ST代码的性能,并产生了代码应该满足的设计标准,以便完全减轻PDL。
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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