Analysis of sigmoid-based blind equalizer algorithms

2016 10th International Symposium on Communication Systems, Networks and Digital Signal Processing (CSNDSP) Pub Date : 2016-07-20 DOI:10.1109/CSNDSP.2016.7573991

Stephan Meyer

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Abstract

This Paper presents sigmoid-based modified decision-directed algorithm (MDDA) and modified decision-directed modulus algorithm (MDDMA) to optimize the algorithm behavior within a real-time environment. Using the sigmoid function instead of the signum function for this group of algorithms leads to a decreasing of the equalizer length, enhancement of the step size parameter (μ), optimization of the bit error rate (BER) and to a reduction of the mean square error (MSE). Applying a sigmoid function results in a nonlinear soft decision of the equalizer output compared to the signum function which represents a nonlinear hard decision. Additional to the simulation results, both algorithms are process-optimized for real-time baseband transmission in a digital signal processor (DSP) test-bed for differential modulations schemes. All presented BER simulation results are supported by BER measurements achieved with the laboratory test-bed. The character of the sigmoid-based nonlinearity can be described as a loupe function to increase the operating range of a blind equalizer for fixed step-size parameter.

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基于sigmoid的盲均衡器算法分析

为了优化算法在实时环境下的性能，本文提出了基于sigmoid的改进决策导向算法(MDDA)和改进决策导向模算法(MDDMA)。采用sigmoid函数代替sgum函数，可以减小均衡器长度，提高步长参数μ，优化误码率，降低均方误差。应用sigmoid函数会导致均衡器输出的非线性软判决，而sgum函数则代表非线性硬判决。除了仿真结果之外，这两种算法都在差分调制方案的数字信号处理器(DSP)试验台中进行了实时基带传输的过程优化。所有的误码率模拟结果都得到了实验室测试平台的误码率测量结果的支持。对于固定步长参数的盲均衡器，基于s型的非线性特性可以被描述为增大其工作范围的loupe函数。

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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2016 10th International Symposium on Communication Systems, Networks and Digital Signal Processing (CSNDSP)

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