Symbol MAP detection aided with first channel estimate for TDMA systems over a frequency selective channel

2009 6th International Symposium on Wireless Communication Systems Pub Date : 2009-09-07 DOI:10.1109/ISWCS.2009.5285261

I. Kammoun, M. Siala, N. Sellami, A. Roumy

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引用次数: 1

Abstract

In this paper, we consider joint iterative equalization and channel estimation for TDMA systems over a frequency selective, quasi-static fading channel. We assume a slowly varying channel impulse response from one burst to the following one. We modify the maximum a posteriori (MAP) criterion by taking into account an a priori channel estimate obtained from the burst preceding the one processed. Assuming that the receiver knows the channel statistics, we propose to use the EM (Expectation-Maximization) algorithm for a joint iterative equalization and channel estimation. During each iteration of the receiver, the EM algorithm reestimates the channel by using the a posteriori probabilities (APP) available at the output of the equalizer. The algorithm we propose has linear-time complexity per iteration. Simulations show that our MAP receiver reaches the performance of the MAP equalizer with perfect channel knowledge after a few iterations, for high SNR and for small values of normalized Doppler spread. They show also that our receiver outperforms the MAP equalizer that uses a channel estimate obtained by using a training sequence.

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在频率选择信道上辅助TDMA系统第一信道估计的符号MAP检测

本文研究了频率选择性准静态衰落信道上TDMA系统的联合迭代均衡和信道估计问题。我们假设从一个突发到下一个突发的信道脉冲响应是缓慢变化的。我们修改了最大后验(MAP)准则，考虑了从处理前的突发中获得的先验信道估计。假设接收方知道信道统计信息，我们建议使用EM(期望最大化)算法进行联合迭代均衡和信道估计。在接收机的每次迭代中，EM算法通过使用均衡器输出处可用的后验概率(APP)重新估计信道。我们提出的算法具有每次迭代的线性时间复杂度。仿真结果表明，经过几次迭代，该MAP接收机在高信噪比和小归一化多普勒扩频下达到了具有完美信道知识的MAP均衡器的性能。它们还表明，我们的接收器优于使用通过使用训练序列获得的信道估计的MAP均衡器。

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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2009 6th International Symposium on Wireless Communication Systems

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