Miloš Daković scite author profile

Abstract-Recovery of arbitrarily positioned samples that are missing in sparse signals recently attracted significant research interest. Sparse signals with heavily corrupted arbitrary positioned samples could be analyzed in the same way as compressive sensed signals by omitting the corrupted samples and considering them as unavailable during the recovery process. The reconstruction of missing samples is done by using one of the well known reconstruction algorithms. In this paper we will propose a very simple and efficient adaptive variable step algorithm, applied directly to the concentration measures, without reformulating the reconstruction problem within the standard linear programming form. Direct application of the gradient approach to the nondifferentiable forms of measures lead us to introduce a variable step size algorithm. A criterion for changing adaptive algorithm parameters is presented. The results are illustrated on the examples with sparse signals, including approximately sparse signals and noisy sparse signals.

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Understanding the Basis of Graph Signal Processing via an Intuitive Example-Driven Approach [Lecture Notes]

Stanković

Mandic

Daković

et al. 2019

IEEE Signal Process. Mag.

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A Tutorial on Sparse Signal Reconstruction and Its Applications in Signal Processing

Stanković

Sejdić

Stanković

et al. 2018

Circuits Syst Signal Process

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Miloš Daković

Micro-Doppler Removal in the Radar Imaging Analysis

Signal Decomposition by Using the S-Method With Application to the Analysis of HF Radar Signals in Sea-Clutter

Adaptive variable step algorithm for missing samples recovery in sparse signals

Understanding the Basis of Graph Signal Processing via an Intuitive Example-Driven Approach [Lecture Notes]

A Tutorial on Sparse Signal Reconstruction and Its Applications in Signal Processing

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