Signal Shaping for BICM at Low SNR

Agrell E.; Alvarado A.

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Signal Shaping for BICM at Low SNR

机译：低信噪比的BICM信号整形

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摘要

The generalized mutual information (GMI) of bit-interleaved coded modulation (BICM) systems, sometimes called the BICM capacity, is investigated at low signal-to-noise ratio (SNR). The combinations of input alphabet, input distribution, and binary labeling that achieve the Shannon limit ${- 1.59};{rm dB}$ are completely characterized. The main conclusion is that a BICM system with probabilistic shaping achieves the Shannon limit at low SNR if and only if it can be represented as a zero-mean linear projection of a hypercube. Hence, probabilistic shaping offers no extra degrees of freedom to optimize the low-SNR BICM-GMI, in addition to what is provided by geometrical shaping. The analytical conclusions are confirmed by numerical results, which also show that for a fixed input alphabet, probabilistic shaping can improve the BICM-GMI in the low and medium SNR range.

机译：在低信噪比（SNR）下研究了比特交织编码调制（BICM）系统的通用互信息（GMI），有时也称为BICM容量。达到香农极限的输入字母，输入分布和二进制标签的组合 $ {-1.59}; {rm dB} $ 完全具有特征。主要结论是，具有概率整形的BICM系统在且仅当可以表示为超立方体的零均值线性投影时，才能在低SNR时达到Shannon极限。因此，除了几何整形外，概率整形没有提供额外的自由度来优化低SNR BICM-GMI。数值结果证实了分析结论，该结果还表明，对于固定输入字母，概率整形可以在低和中等SNR范围内改善BICM-GMI。

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《Information Theory, IEEE Transactions on》 |2013年第4期|2396-2410|共15页
作者
Agrell E.; Alvarado A.;
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作者单位

Dept. of Signals and Systems, Chalmers Univ. of Technology, Gö'||';

'||'teborg, Sweden;

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正文语种 eng
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Labeling; Mutual information; Probabilistic logic; Signal to noise ratio; Transforms; Vectors; Wideband; Binary labeling; Hadamard transform; Shannon limit (SL); bit-interleaved coded modulation (BICM); generalized mutual information (GMI); probabilistic shaping; wideband regime;

机译：标签;相互信息;概率逻辑;信噪比;转换;向量;宽带;二进制标签;哈达玛变换香农极限（SL）;比特交错编码调制（BICM）;广义共同信息（GMI）;概率整形宽带制度;

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Signal Shaping for BICM at Low SNR

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