A compromise equalizer design incorporating performance invariance

Bell System Technical Journal Pub Date : 1973-09-01 DOI:10.1002/J.1538-7305.1973.TB02005.X

F. Brophy, G. Foschini, R. Gitlin

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引用次数: 5

Abstract

We give a solution to the problem of designing a fixed compromise equalizer for use in transmission systems involving an ensemble of random channels. The signal and noise spectra, along with the second-order statistics of the channel ensemble, are used to find the equalizer characteristic that minimizes the mean-square distortion between the equalizer output and a scaled version of the transmitter output. The key departure from previous work is that the criterion better captures practical performance invariance; specifically, the cost function incorporates the insensitivity of a well-designed demodulator to any amplitude scaling or time delay introduced by a particular channel. After demonstrating that the optimum equalizer shape is related to the principal eigenfunction of a normalized channel correlation function, we consider several special cases that give further insight into the properties of the solution. We find that the equalizer amplitude is attenuated over those frequencies where the signal-to-noise or signal-to-channel-variance ratios are small. The analysis confirms the standard engineering practice of inverting the average channel in the absence of noise and when the variance of the channel characteristics is small.

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一个折衷的均衡器设计，结合性能不变性

针对随机信道系统中固定折衷均衡器的设计问题，给出了一种解决方案。信号和噪声频谱，以及信道集合的二阶统计量，用于找到均衡器特性，使均衡器输出和发射机输出的缩放版本之间的均方失真最小化。与先前工作的关键区别在于，该标准更好地捕获了实际性能不变性;具体来说，成本函数包含了设计良好的解调器对特定信道引入的任何幅度缩放或时间延迟的不敏感性。在证明了最佳均衡器形状与归一化信道相关函数的主特征函数相关之后，我们考虑了几个特殊情况，这些情况可以进一步深入了解解的性质。我们发现，在信噪比或信通道方差比较小的频率上，均衡器幅度被衰减。分析证实了在无噪声和信道特性方差较小的情况下反演平均信道的标准工程实践。

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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Bell System Technical Journal

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