Construction of M-PSK trellis codes and performance analysis over fading channels

IEEE International Conference on Communications, Including Supercomm Technical Sessions Pub Date : 1990-04-16 DOI:10.1109/ICC.1990.117152

B. Vucetic, J. Nicolas

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引用次数: 7

Abstract

By using derived analytical bounds, the authors show that to minimize the error probability of MPSK TCM (trellis coded modulation) codes on fading channels the free Euclidean distance should be maximized for large ECL (effective code length) codes. For short ECLs, however, the ECL and the minimum PD (product distance) are used as the design criteria to obtain better codes than corresponding Ungerboeck codes. By using a simulation method, it is shown that the code performance is extremely sensitive to interleaving depths and that the penalty due to nonideal interleaving is high. The results also indicate much less sensitivity of trellis codes to decoding decision depths on fading channels than on Gaussian channels, allowing higher interleaving degrees on delay-constrained communication systems. Error performance bounds are derived for MPSK trellis codes over Gaussian and fading channels in the presence of phase noise. Coherent demodulation combined with the transparent tone in band technique (TTIB) for phase recovery is evaluated.<>

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M-PSK网格码的构造及衰落信道性能分析

通过推导出的解析界，作者指出，为了使栅格编码调制(MPSK TCM)码在衰落信道上的错误概率最小化，对于大有效码长(ECL)码，应使自由欧氏距离最大化。然而，对于较短的ECL, ECL和最小PD(产品距离)被用作设计准则，以获得比相应的Ungerboeck代码更好的代码。仿真结果表明，编码性能对交错深度非常敏感，非理想交错带来的损失很大。结果还表明，网格码在衰落信道上对解码决策深度的敏感性要比在高斯信道上低得多，从而允许在延迟约束的通信系统上有更高的交错度。推导了存在相位噪声的高斯信道和衰落信道上MPSK格码的误差性能界限。对相干解调与透明带内调技术(TTIB)相恢复进行了评价。

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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IEEE International Conference on Communications, Including Supercomm Technical Sessions

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