A coarray processing technique for nested vector-sensor arrays with improved resolution capabilities

In this paper, we propose a new coarray processing technique for nested electromagnetic vector-sensor (EMVS) arrays. Vector-sensors by providing multi-component measurements of the incident waves offer additional information over the common single-output scalar sensors. The current paper takes the a...

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Vydané v:Digital signal processing Ročník 130; s. 103715
Hlavní autori: Jamshidpour, Sadegh, Sakhaei, Sayed Mahmoud
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Elsevier Inc 01.10.2022
Predmet:
Coarray processing
Direction of arrival (DOA) estimation
Electromagnetic vector-sensor (EMVS)
Nested arrays
Spatial smoothing
Spatial smoothing
Direction of arrival (DOA) estimation
Electromagnetic vector-sensor (EMVS)
Coarray processing
Nested arrays
ISSN:1051-2004, 1095-4333
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Popis
Shrnutí:In this paper, we propose a new coarray processing technique for nested electromagnetic vector-sensor (EMVS) arrays. Vector-sensors by providing multi-component measurements of the incident waves offer additional information over the common single-output scalar sensors. The current paper takes the advantage of the multi-component measurements of vector-sensors combined with the elegant nested array strategy to design a new coarray processing technique. In this way, we utilize the auto/cross-correlation matrices of the underlying subarrays of the nested EMVS array to serve as snapshots in the coarray domain. Then, we apply two levels of spatial and temporal smoothing procedure to recover the rank of the model and also improve the covariance matrix estimation in the difference coarray domain. The proposed method can provide O(N2) degrees of freedom (DOFs) with only N physical EMVSs. The effectiveness of the proposed coarray processing technique is demonstrated through several simulation examples. Simulation results show that the proposed technique provides superior resolution capabilities and more accurate DOA estimates in the asymptotic region compared to the other counterparts. Moreover, the proposed method requires relatively less computational efforts among the other methods.
ISSN:1051-2004
1095-4333
DOI:10.1016/j.dsp.2022.103715