The dispersion of infinite constellations

2011 IEEE International Symposium on Information Theory Proceedings Pub Date : 2011-10-03 DOI:10.1109/ISIT.2011.6033771

A. Ingber, R. Zamir, M. Feder

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引用次数: 2

Abstract

In the setting of a Gaussian channel without power constraints, proposed by Poltyrev, the codewords are points in an n-dimensional Euclidean space (an infinite constellation) and their optimal density is considered. Poltyrev's “capacity” is the highest achievable normalized log density (NLD) with vanishing error probability. This capacity as well as error exponents for this setting are known. In this work we consider the optimal NLD for a fixed, nonzero error probability, as a function of the codeword length (dimension) n. We show that as n grows, the gap to capacity is inversely proportional (up to the first order) to the square-root of n where the proportion constant is given by the inverse Q-function of the allowed error probability, times the square root of 1 over 2. In an analogy to similar result in channel coding, the dispersion of infinite constellations is 1 over 2 nat2 per channel use. We show that this optimal convergence rate can be achieved using lattices, therefore the result holds for the maximal error probability as well. Connections to the error exponent of the power constrained Gaussian channel and to the volume-to-noise ratio as a figure of merit are discussed.

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无限星座的色散

在 Poltyrev 提出的无功率限制的高斯信道环境中，码字是 n 维欧几里得空间（无限星座）中的点，考虑的是它们的最佳密度。Poltyrev 的 "容量 "是在误差概率消失的情况下可实现的最高归一化对数密度（NLD）。这一容量以及这一设置的误差指数都是已知的。我们的研究表明，随着 n 的增长，与容量的差距与 n 的平方根成反比（达到一阶），其中比例常数由允许误差概率的反 Q 函数乘以 1 超过 2 的平方根给出。与信道编码中的类似结果类似，无限星座的分散性为每次使用信道时 1 乘以 2 nat2。我们的研究表明，这一最佳收敛率可以通过网格来实现，因此最大误差概率的结果也是成立的。我们还讨论了与功率受限高斯信道的误差指数以及作为优点数字的容积噪声比之间的联系。

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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2011 IEEE International Symposium on Information Theory Proceedings

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