A Fast Algorithm for Low Rank + Sparse column-wise Compressive Sensing

Abstract

This paper focuses studies the following low rank + sparse (LR+S) column-wise compressive sensing problem. We aim to recover an n × q matrix, * =[ 1*, 2*, ·s , q*] from m independent linear projections of each of its q columns, given by k :=kk*, k ∈ [q]. Here, k is an m-length vector with m < n. We assume that the matrix * can be decomposed as *=*+*, where * is a low rank matrix of rank r << (n,q) and * is a sparse matrix. Each column of contains non-zero entries. The matrices k are known and mutually independent for different k. To address this recovery problem, we propose a novel fast GD-based solution called AltGDmin-LR+S, which is memory and communication efficient. We numerically evaluate its performance by conducting a detailed simulation-based study.

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