Paper Info
Title
Joint range and angle estimation of low-elevation target with bistatic meter-wave FDA-MIMO radar
Abstract
Frequency diverse array multiple-input-multiple-output (FDA-MIMO) radar, which has gained much attention in recent years, can be used for the estimation of multidimensional parameters due to the range-dependent property of the beampattern. The localization of low-elevation targets is a key problem to be solved in meter-wave radar. Combining the advantages of the bistatic system, this paper investigates the joint direction of departure (DOD), direction of arrival (DOA), and range multiparameter estimation problem of the bistatic meter-wave FDA-MIMO radar. Firstly, the signal model of the bistatic meter-wave FDA-MIMO radar is derived. Then the signal model is deformed and then applied to the generalized multiple signal classification (MUSIC) algorithm which does not need to consider the signal coherence. A better performance steering vector matching (SVM) reduced dimension MUSIC algorithm is proposed by exploring the signal model characteristics. Then the computational complexity of the two algorithms and the derivation of Cramer Rao bound (CRB) for estimating low-elevation target parameters is given. The innovation of this paper is to provide a joint localization model for bistatic meter-wave FDA-MIMO, which extends the study of bistatic FDA-MIMO radar to the field of coherent signals. The simulation results verify the effectiveness of two localization algorithms without decoherence processing.
Year
DOI
Venue
2022
10.1016/j.dsp.2022.103556
Digital Signal Processing
Keywords
DocType
Volume
Meter-wave radar,Bistatic FDA-MIMO radar,Low-elevation target localization,Coherent source
Journal
127
ISSN
Citations 
PageRank 
1051-2004
0
0.34
References 
Authors
0
4
Name
Order
Citations
PageRank
Yibin Liu100.34
Chunyang Wang200.34
Guimei Zheng320.75
Yuwei Song420.75