Sparse Array Placement for Bayesian Compressive Sensing Based Direction of Arrival Estimation

In this paper, an algorithm to generate a sparse linear antenna array for Direction of Arrival (DoA) estimation that works well in combination with Bayesian Compressive Sensing (BCS) is proposed. The proposed algorithms rely on the provided information inherent to BCS, i.e., the entropy of the recov...

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Bibliographic Details
Published inProceedings of the IEEE National Radar Conference (1996) pp. 1 - 6
Main Authors Lamberti, Lucas L., Roldan, Ignacio, Yarovoy, Alexander, Fioranelli, Francesco
Format Conference Proceeding
LanguageEnglish
Published IEEE 06.05.2024
Subjects
antenna placement
Bayes methods
Bayesian Compressive Sensing
Direction-of-arrival estimation
Directive antennas
DoA estimation
Entropy
Estimation
MIMO radar
Radar antennas
Uncertainty
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ISSN2375-5318
DOI10.1109/RadarConf2458775.2024.10548658

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Summary:In this paper, an algorithm to generate a sparse linear antenna array for Direction of Arrival (DoA) estimation that works well in combination with Bayesian Compressive Sensing (BCS) is proposed. The proposed algorithms rely on the provided information inherent to BCS, i.e., the entropy of the recovered estimation vector, to place new sensor antenna elements in an initially empty array, so that the most additional information is gathered about the observed scene. It is shown by means of simulation and radar measurements that BCS methods for DoA estimation using sparse sensor arrays provide promising results in terms of detection probability and estimation accuracy. Furthermore, the proposed algorithms are able to generate sparse sensor arrangements which provide an improved performance when compared against randomly generated sparse arrays.
ISSN:2375-5318
DOI:10.1109/RadarConf2458775.2024.10548658