Performance of Euclidean-Metric MLSD Receiver in the Presence of Channel Mismatch Caused by Nongaussian Noise

2010 IEEE International Conference on Communications Pub Date : 2010-05-23 DOI:10.1109/ICC.2010.5502001

D. Morero, M. Hueda

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Abstract

In this paper we present a theory of the bit error rate (BER) of Euclidean metric-based maximum likelihood sequence detectors (EM-MLSD) in the presence of channel mismatch caused by nongaussian noise. Although the theory is general, here we focus on the effects of quantization noise (QN) added by the front-end analog-to-digital converter (ADC) typically used in DSP based implementations of the receiver. Numerical results show a close agreement between the predictions of the theoretical analysis and computer simulations. As a practical application of the proposed theory, we investigate the performance of EM-MLSD in 10Gb/s Ethernet receivers for multimode optical fibers. Since the BER required in this application is below 10^-12, which precludes the use of computer simulations to estimate BER, a theoretical study of the MLSD performance including the combined effects of the channel dispersion and QN, becomes necessary. We present numerical results for the three stressors specified by the 10GBASE-LRM standard. Our study shows that the impact of the QN added by the ADC on the performance depends strongly on the channel dispersion (i.e., the stressor).

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非高斯噪声下欧几里得-公制MLSD接收机的信道失配性能

本文提出了基于欧几里德度量的最大似然序列检测器(EM-MLSD)在存在非高斯噪声引起的信道失配情况下的误码率理论。虽然该理论是通用的，但这里我们关注的是通常用于基于DSP的接收器实现的前端模数转换器(ADC)添加的量化噪声(QN)的影响。数值结果表明，理论分析的预测结果与计算机模拟结果非常吻合。作为该理论的实际应用，我们研究了EM-MLSD在10Gb/s多模光纤以太网接收器中的性能。由于该应用所需的误码率低于10^-12，这就排除了使用计算机模拟来估计误码率的可能性，因此有必要对包括信道色散和QN综合影响的MLSD性能进行理论研究。我们给出了10GBASE-LRM标准规定的三种应力源的数值结果。我们的研究表明，由ADC添加的QN对性能的影响很大程度上取决于信道色散(即应力源)。

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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2010 IEEE International Conference on Communications

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