Bisparse Blind Deconvolution through Hierarchical Sparse Recovery
Abstract
The hierarchical sparsity framework, and in particular the HiHTP algorithm, has been successfully applied to many relevant communication engineering problems recently, particularly when the signal space is hierarchically structured. In this paper, the applicability of the HiHTP algorithm for solving the bi-sparse blind deconvolution problem is studied. The bi-sparse blind deconvolution setting here consists of recovering and from the knowledge of , where is some linear operator, and both and are both assumed to be sparse. The approach rests upon lifting the problem to a linear one, and then applying HiHTP, through the \emph{hierarchical sparsity framework}. %In particular, the efficient HiHTP algorithm is proposed for performing the recovery. Then, for a Gaussian draw of the random matrix , it is theoretically shown that an -sparse and -sparse with high probability can be recovered when .
Cite
@article{arxiv.2210.11993,
title = {Bisparse Blind Deconvolution through Hierarchical Sparse Recovery},
author = {Axel Flinth and Ingo Roth and Gerhard Wunder},
journal= {arXiv preprint arXiv:2210.11993},
year = {2024}
}
Comments
V3: Completely rewritten introduction, and a few corrections in the proof section. V2: Completely revised version, entirely different proof, resulting in the recovery guarantee improved by a factor s