Asymptotic Frame Theory for Analog Coding

IF 2 Q3 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
Marina Haikin, M. Gavish, D. Mixon, R. Zamir
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引用次数: 3

Abstract

Over-complete systems of vectors, or in short, frames, play the role of analog codes in many areas of communication and signal processing. To name a few, spreading sequences for code-division multiple access (CDMA), over-complete representations for multiple-description (MD) source coding, space-time codes, sensing matrices for compressed sensing (CS), and more recently, codes for unreliable distributed computation. In this survey paper we observe an information-theoretic random-like behavior of frame subsets. Such sub-frames arise in setups involving erasures (communication), random user activity (multiple access), or sparsity (signal processing), in addition to channel or quantization noise. The goodness of a frame as an analog code is a function of the eigenvalues of a sub-frame, averaged over all sub-frames. Within the highly symmetric class of Equiangular Tight Frames (ETF), as well as other"near ETF"families, we show a universal behavior of the empirical eigenvalue distribution (ESD) of a randomly-selected sub-frame: (i) the ESD is asymptotically indistinguishable from Wachter's MANOVA distribution; and (ii) it exhibits a convergence rate to this limit that is indistinguishable from that of a matrix sequence drawn from MANOVA (Jacobi) ensembles of corresponding dimensions. Some of these results follow from careful statistical analysis of empirical evidence, and some are proved analytically using random matrix theory arguments of independent interest. The goodness measures of the MANOVA limit distribution are better, in a concrete formal sense, than those of the Marchenko-Pastur distribution at the same aspect ratio, implying that deterministic analog codes are better than random (i.i.d.) analog codes. We further give evidence that the ETF (and near ETF) family is in fact superior to any other frame family in terms of its typical sub-frame goodness.
模拟编码的渐近框架理论
矢量的过完备系统,或者简而言之,帧,在通信和信号处理的许多领域中扮演着模拟码的角色。举几个例子,用于码分多址(CDMA)的扩展序列、用于多描述(MD)源编码的过完全表示、空时码、用于压缩感知(CS)的感知矩阵,以及最近用于不可靠分布式计算的代码。在本文中,我们观察到帧子集的一种信息论的随机行为。除了信道或量化噪声外,这种子帧还出现在涉及擦除(通信)、随机用户活动(多址)或稀疏性(信号处理)的设置中。帧作为模拟码的优劣是子帧的特征值的函数,在所有子帧上平均。在高度对称的等角紧框架(ETF)以及其他“近ETF”家族中,我们证明了随机选择的子框架的经验特征值分布(ESD)的普遍行为:(i) ESD与Wachter's MANOVA分布渐近不可区分;(ii)它的收敛速度与从相应维数的MANOVA (Jacobi)集合中得出的矩阵序列的收敛速度没有区别。其中一些结果来自对经验证据的仔细统计分析,有些结果是用独立兴趣的随机矩阵理论论证进行分析证明的。在具体的形式意义上,MANOVA极限分布的优度指标优于相同纵横比下的Marchenko-Pastur分布,这意味着确定性模拟码优于随机(i.i.d)模拟码。我们进一步证明,ETF(和近ETF)家族实际上优于任何其他框架家族在其典型的子框架的善良。
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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来源期刊
Foundations and Trends in Communications and Information Theory
Foundations and Trends in Communications and Information Theory COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-
CiteScore
7.90
自引率
0.00%
发文量
6
期刊介绍: Foundations and Trends® in Communications and Information Theory publishes survey and tutorial articles in the following topics: - Coded modulation - Coding theory and practice - Communication complexity - Communication system design - Cryptology and data security - Data compression - Data networks - Demodulation and Equalization - Denoising - Detection and estimation - Information theory and statistics - Information theory and computer science - Joint source/channel coding - Modulation and signal design - Multiuser detection - Multiuser information theory
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