Recoverability of Group Sparse Signals from Corrupted Measurements via Robust Group Lasso

28 Sep 2015  ·  Wei Xiaohan, Ling Qing, Han Zhu ·

This paper considers the problem of recovering a group sparse signal matrix $\mathbf{Y} = [\mathbf{y}_1, \cdots, \mathbf{y}_L]$ from sparsely corrupted measurements $\mathbf{M} = [\mathbf{A}_{(1)}\mathbf{y}_{1}, \cdots, \mathbf{A}_{(L)}\mathbf{y}_{L}] + \mathbf{S}$, where $\mathbf{A}_{(i)}$'s are known sensing matrices and $\mathbf{S}$ is an unknown sparse error matrix. A robust group lasso (RGL) model is proposed to recover $\mathbf{Y}$ and $\mathbf{S}$ through simultaneously minimizing the $\ell_{2,1}$-norm of $\mathbf{Y}$ and the $\ell_1$-norm of $\mathbf{S}$ under the measurement constraints... We prove that $\mathbf{Y}$ and $\mathbf{S}$ can be exactly recovered from the RGL model with a high probability for a very general class of $\mathbf{A}_{(i)}$'s. read more

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