PLC Performance Evaluation with Non-Uniform Background Noise Phase

Aashish Mathur, M. Bhatnagar, B. K. Panigrahi
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引用次数: 3

Abstract

Power line communication (PLC) has recently grabbed the attention of the researchers owing to its huge potential to provide high speed access to video and data. Since power lines were not initially designed for communication purposes, they offer a difficult communication environment in the form of impulsive noise and multiplicative noise, in addition to the background noise. This elucidates the need for evaluating the performance of PLC systems by taking into account all these factors. In this paper, we study the performance of a PLC system in the presence of Rayleigh channel gain under the combined effects of Nakagami-m distributed background noise with non- uniformly distributed phase and Middleton class A distributed impulsive noise. We evaluate closed- form expressions of the analytical average bit error rate for different cases depending on the presence or absence of impulsive noise and channel gain. We provide a further insight into the system by obtaining the diversity of the PLC system. Our analysis is validated by a close matching with the simulation results.
非均匀背景噪声相位下PLC性能评价
电力线通信(PLC)由于其提供高速视频和数据访问的巨大潜力,最近引起了研究人员的注意。由于电力线最初不是为通信目的而设计的,除了背景噪声外,它们还以脉冲噪声和乘法噪声的形式提供了一个困难的通信环境。这说明需要通过考虑所有这些因素来评估PLC系统的性能。本文研究了具有非均匀相位分布的Nakagami-m型背景噪声和米德尔顿a类分布脉冲噪声共同作用下存在瑞利信道增益的PLC系统的性能。我们根据脉冲噪声和信道增益的存在与否,计算了不同情况下解析平均误码率的封闭表达式。通过获得PLC系统的多样性,我们提供了对系统的进一步了解。分析结果与仿真结果吻合较好。
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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