Blind and nonblind nonnegative impulse response ISI channel demodulation using the Richardson-Lucy algorithm

Proceedings of the Fifth IEEE International Symposium on Signal Processing and Information Technology, 2005. Pub Date : 2005-12-21 DOI:10.1109/ISSPIT.2005.1577138

Zhijun Zhao, R. Blahut

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引用次数: 14

Abstract

Both blind and nonblind demodulation algorithms based on the Richardson-Lucy algorithm for the one-dimensional intersymbol interference channel with nonnegative impulse response function are proposed and compared numerically with the Viterbi demodulation algorithm and the demodulation algorithms based on the Wiener filter. Simulation results show that the demodulation algorithms based on the Richardson-Lucy algorithm have better bit error rate performance than the demodulation algorithms based on the Wiener filter. With the progressive thresholding, the bit error rate curves of both blind and nonblind Richardson-Lucy-based algorithms are within 0.3 dB from that of the Viterbi algorithm throughout the entire simulated signal-to-noise ratio range. While the complexity of the Viterbi algorithm depends critically on the length of the channel impulse response function, the complexity of the demodulation algorithms based on the Richardson-Lucy algorithm only weakly depends on it

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使用Richardson-Lucy算法的盲和非盲非负脉冲响应ISI信道解调

针对具有非负脉冲响应函数的一维码间干扰信道，提出了基于Richardson-Lucy算法的盲解调算法和非盲解调算法，并与Viterbi解调算法和基于Wiener滤波器的解调算法进行了数值比较。仿真结果表明，基于Richardson-Lucy算法的解调算法比基于维纳滤波器的解调算法具有更好的误码率性能。通过渐进式阈值分割，在整个模拟信噪比范围内，盲算法和非盲算法的误码率曲线与Viterbi算法的误码率曲线的误差在0.3 dB以内。Viterbi算法的复杂度严重依赖于信道脉冲响应函数的长度，而基于Richardson-Lucy算法的解调算法的复杂度仅弱依赖于它

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Proceedings of the Fifth IEEE International Symposium on Signal Processing and Information Technology, 2005.

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