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Reconstruction of Randomly Sampled Sparse Signals Using an Adaptive Gradient Algorithm

Information Theory 2015-04-28 v2 math.IT

Abstract

Sparse signals can be recovered from a reduced set of samples by using compressive sensing algorithms. In common methods the signal is recovered in the sparse domain. A method for the reconstruction of sparse signal which reconstructs the remaining missing samples/measurements is recently proposed. The available samples are fixed, while the missing samples are considered as minimization variables. Recovery of missing samples/measurements is done using an adaptive gradient-based algorithm in the time domain. A new criterion for the parameter adaptation in this algorithm, based on the gradient direction angles, is proposed. It improves the algorithm computational efficiency. A theorem for the uniqueness of the recovered signal for given set of missing samples (reconstruction variables) is presented. The case when available samples are a random subset of a uniformly or nonuniformly sampled signal is considered in this paper. A recalculation procedure is used to reconstruct the nonuniformly sampled signal. The methods are illustrated on statistical examples.

Keywords

Cite

@article{arxiv.1412.0624,
  title  = {Reconstruction of Randomly Sampled Sparse Signals Using an Adaptive Gradient Algorithm},
  author = {Ljubisa Stankovic and Milos Dakovic},
  journal= {arXiv preprint arXiv:1412.0624},
  year   = {2015}
}

Comments

14 pages, 4 figures

R2 v1 2026-06-22T07:17:21.041Z