Performance of coded DMT system with account for temporal dynamics of impulsive noise

2008 IEEE Region 8 International Conference on Computational Technologies in Electrical and Electronics Engineering Pub Date : 2008-07-21 DOI:10.1109/SIBIRCON.2008.4602626

A. Sergienko, M.S. Sidorov, E. S. Kozhevnikov

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引用次数: 2

Abstract

To implement data communications over power- lines multicarrier modulation (such as Discrete MultiTone, DMT) is widely adopted. One of important features of powerline channels is the presence of strong impulsive noise. The length of modulation symbol in practical DMT systems is comparable with average length of noise pulses. In the article the impact of impulsive noise on performance of a coded DMT system is analyzed. The temporal dynamics of noise is described by two-level Markov model. Theoretic results and simulation lead to the following conclusions: with practical values of the ratio between noise impulse length and DMT symbol length, non-stationary nature of impulsive noise can noticeably affect performance of DMT systems; DFT leads to effective normalization of noise if average duration of noise pulses does not exceed 1% of DMT symbol length; during the noise burst the loss due to the impulsive nature of noise varies in the range of 1...2 dB.

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考虑脉冲噪声时间动态的编码DMT系统性能

为了实现电力线上的数据通信，多载波调制(如离散多音，DMT)被广泛采用。电力线信道的一个重要特征是存在强烈的脉冲噪声。实际DMT系统中调制符号的长度与噪声脉冲的平均长度相当。本文分析了脉冲噪声对编码DMT系统性能的影响。噪声的时间动态用两级马尔可夫模型来描述。理论和仿真结果表明:当噪声脉冲长度与DMT符号长度之比具有实用值时，脉冲噪声的非平稳性会显著影响DMT系统的性能;如果噪声脉冲的平均持续时间不超过DMT符号长度的1%，则DFT可以有效地归一化噪声;在噪声爆发过程中，由于噪声的脉冲特性造成的损失在1…2 dB。

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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2008 IEEE Region 8 International Conference on Computational Technologies in Electrical and Electronics Engineering

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