Average-case Hardness of RIP Certification

May 31, 2016 ยท Declared Dead ยท ๐Ÿ› Neural Information Processing Systems

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Authors Tengyao Wang, Quentin Berthet, Yaniv Plan arXiv ID 1605.09646 Category cs.LG: Machine Learning Cross-listed cs.CC, math.ST, stat.ML Citations 45 Venue Neural Information Processing Systems Last Checked 3 months ago
Abstract
The restricted isometry property (RIP) for design matrices gives guarantees for optimal recovery in sparse linear models. It is of high interest in compressed sensing and statistical learning. This property is particularly important for computationally efficient recovery methods. As a consequence, even though it is in general NP-hard to check that RIP holds, there have been substantial efforts to find tractable proxies for it. These would allow the construction of RIP matrices and the polynomial-time verification of RIP given an arbitrary matrix. We consider the framework of average-case certifiers, that never wrongly declare that a matrix is RIP, while being often correct for random instances. While there are such functions which are tractable in a suboptimal parameter regime, we show that this is a computationally hard task in any better regime. Our results are based on a new, weaker assumption on the problem of detecting dense subgraphs.
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