Information Theoretic Lower Bound of Restricted Isometry Property Constant

Gen Li, Jingkai Yan, Yuantao Gu
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引用次数: 1

Abstract

Compressed sensing seeks to recover an unknown sparse vector from undersampled rate measurements. Since its introduction, there have been enormous works on compressed sensing that develop efficient algorithms for sparse signal recovery. The restricted isometry property (RIP) has become the dominant tool used for the analysis of exact reconstruction from seemingly undersampled measurements. Although the upper bound of the RIP constant has been studied extensively, as far as we know, the result is missing for the lower bound. In this work, we first present a tight lower bound for the RIP constant, filling the gap there. The lower bound is at the same order as the upper bound for the RIP constant. Moreover, we also show that our lower bound is close to the upper bound by numerical simulations. Our bound on the RIP constant provides an information-theoretic lower bound about the sampling rate for the first time, which is the essential question for practitioners.
受限等距性质常数的信息论下界
压缩感知旨在从欠采样率测量中恢复未知的稀疏向量。自从它被引入以来,在压缩感知方面已经有了大量的工作,开发了高效的稀疏信号恢复算法。限制等距特性(RIP)已成为分析从看似欠采样测量中精确重建的主要工具。虽然人们对RIP常数的上界进行了广泛的研究,但据我们所知,对下界的研究结果还很缺乏。在这项工作中,我们首先提出了RIP常数的严格下界,填补了那里的空白。RIP常数的下界与上界处于同一阶。此外,我们还通过数值模拟证明了我们的下界接近上界。我们对RIP常数的取值范围首次提供了一个关于采样率的信息论的下界,这是实践者需要解决的关键问题。
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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