Successful Recovery Performance Guarantees of Noisy SOMP


الملخص بالإنكليزية

The simultaneous orthogonal matching pursuit (SOMP) is a popular, greedy approach for common support recovery of a row-sparse matrix. The support recovery guarantee of SOMP has been extensively studied under the noiseless scenario. Compared to the noiseless scenario, the performance analysis of noisy SOMP is still nascent, in which only the restricted isometry property (RIP)-based analysis has been studied. In this paper, we present the mutual incoherence property (MIP)-based study for performance analysis of noisy SOMP. Specifically, when noise is bounded, we provide the condition on which the exact support recovery is guaranteed in terms of the MIP. When noise is unbounded, we instead derive a bound on the successful recovery probability (SRP) that depends on the specific distribution of noise. Then we focus on the common case when noise is random Gaussian and show that the lower bound of SRP follows Tracy-Widom law distribution. The analysis reveals the number of measurements, noise level, the number of sparse vectors, and the value of MIP constant that are required to guarantee a predefined recovery performance. Theoretically, we show that the MIP constant of the measurement matrix must increase proportional to the noise standard deviation, and the number of sparse vectors needs to grow proportional to the noise variance. Finally, we extensively validate the derived analysis through numerical simulations.

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