RIP based condition for support recovery with A* OMP in the presence of noise

IET Signal Process. Pub Date : 2020-03-24 DOI:10.1049/iet-spr.2019.0478
Haifeng Li, Wengu Chen
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引用次数: 3

Abstract

A* orthogonal matching pursuit (A* OMP) aims at combination of best-first tree search with the OMP algorithm for the compressed sensing problem. In this study, the authors present a new analysis for the A* OMP algorithm using the restricted isometry property (RIP). The results show that if the sampling matrix A satisfies the RIP with δ K ⋆ < B / ( K + B ) ( K ⋆ = max { 2 K , K + B } ), then under some constraints on SNR, A* OMP accurately recovers the support of any K-sparse signal x from the samples y = A x + e , where B is the number of child paths for each candidate in the algorithm. In addition, the proposed condition is an optimal condition that guarantees the success of A* OMP in the noise-free case.
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基于RIP的条件下支持恢复与A* OMP在存在噪声
A*正交匹配追踪(A* OMP)是将最优优先树搜索与OMP算法相结合来解决压缩感知问题。在本研究中,作者利用受限等距特性(RIP)对a * OMP算法进行了新的分析。结果表明,如果采样矩阵满足RIP和δK⋆< B / (K + B) (K⋆= max {2 K, K + B}),然后在某些约束在信噪比,A * OMP准确恢复的支持任何K-sparse信号从样本y = x + e、B是孩子路径的数量为每个候选人的算法。此外,所提出的条件是保证无噪声情况下A* OMP成功的最优条件。
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IET Signal Process.
IET Signal Process.
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