Restricted Isometry Constants where p sparse recovery can fail for 0 < p ≤ 1

نویسنده

  • Michael E. Davies
چکیده

This paper investigates conditions under which the solution of an underdetermined linear system with minimal � norm, 0 < p ≤ 1, is guaranteed to be also the sparsest one. Matrices are constructed with restricted isometry constants (RIC) δ2m arbitrarily close to 1/ √ 2 ≈ 0.707 where sparse recovery with p = 1 fails for at least one m-sparse vector, as well as matrices with δ2m arbitrarily close to one where � minimisation succeeds for any m-sparse vector. This highlights the pessimism of sparse recovery prediction based on the RIC, and indicates that there is limited room for improving over the best known positive results of Foucart and Lai, which guarantee that � minimisation recovers all m-sparse vectors for any matrix with δ2m < 2(3− √ 2)/7 ≈ 0.4531. These constructions are a by-product of tight conditions for � recovery (0 ≤ p ≤ 1) with matrices of unit spectral norm, which are expressed in terms of the minimal singular values of 2m-column submatrices. Compared to � minimisation, � minimisation recovery failure is shown to be only slightly delayed in terms of the RIC values. Furthermore in this case the minimisation is nonconvex and it is important to consider the specific minimisation algorithm being used. It is shown that when � optimisation is attempted using an iterative reweighted � scheme, failure can still occur for δ2m arbitrarily close to 1/ √ 2.

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تاریخ انتشار 2008