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Compressive Sensing With Prior Information: Requirements and Probabilities of Reconstruction in mbi [ell] bf 1 -Minimization

In compressive sensing, prior information about the sparse representation's support reduces the theoretical minimum number of measurements that allows perfect reconstruction. This theoretical lower bound corresponds to the ideal reconstruction procedure based on [ell] 0 -minimization, which is...

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Published in:	IEEE transactions on signal processing 2013-05, Vol.61 (9), p.2150-2164
Main Authors:	Miosso, C J, von Borries, R, Pierluissi, J H
Format:	Article
Language:	English
Subjects:	Computer simulation Detection Dynamics Lower bounds Monte Carlo methods Reconstruction Signal reconstruction Transaction processing
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creator	Miosso, C J von Borries, R Pierluissi, J H
description	In compressive sensing, prior information about the sparse representation's support reduces the theoretical minimum number of measurements that allows perfect reconstruction. This theoretical lower bound corresponds to the ideal reconstruction procedure based on [ell] 0 -minimization, which is not practical for most real-life signals. In this paper, we show that this type of prior information also improves the probability of reconstruction from limited linear measurements when using the more practical [ell] 1 -minimization procedure, for the same considered stochastic signal. In order to prove this result, we present the necessary and sufficient conditions for signal reconstruction by [ell] 1 -minimization when using prior information. We then prove that the lower bound for the probability of attaining these conditions increases with the number of support locations in the prior information set, and obtain the expression for the final probability of reconstruction under specific conditions. Our theoretical results are then compared to empirical probabilities obtained by Monte Carlo simulations. Finally, we present numerical reconstructions with and without prior information, as well as a simulation to illustrate how prior information can be used to improve reconstruction, for example, in the context of dynamic magnetic resonance imaging.
doi_str_mv	10.1109/TSP.2012.2231076
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subjects	Computer simulation Detection Dynamics Lower bounds Monte Carlo methods Reconstruction Signal reconstruction Transaction processing
title	Compressive Sensing With Prior Information: Requirements and Probabilities of Reconstruction in mbi [ell] bf 1 -Minimization
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