Suppressing Mainlobe Deceptive Jammers via Two-Low-Rank Matrix Decomposition in FDA-MIMO Radar

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Detail(s)

Original languageEnglish
Number of pages14
Journal / PublicationIEEE Transactions on Aerospace and Electronic Systems
Publication statusOnline published - 14 Oct 2024

Abstract

Frequency diverse array-multiple-input multipleoutput (FDA-MIMO) radar is capable of suppressing mainlobe deceptive jammers owing to its extra degrees-of- freedom (DOFs) in the range domain. However, it fails to suppress the rapidly generated mainlobe jammers, which occur within the same transmit pulse as the true target. To address this challenge, an innovative approach that integrates the two-low-rank matrix decomposition (2-LRMD) model is devised. At the modelling stage, leveraging the low-rank characteristics in the spatial domain, the data matrix is decomposed into two low-rank matrices, respectively representing the true target and mainlobe deceptive jammers. This decomposition is then formulated into an optimization problem, where alternating direction method of multipliers (ADMM) is utilized to isolate the target and jammer signals. Furthermore, to eradicate residual jammer components within the received target signal, truncated singular value decomposition (SVD) is adopted. On the other hand, the convergence properties of the proposed 2-LRMD-ADMM algorithm are rigorously studied, and its computational complexity is analyzed. Numerical results showcase the effectiveness of our solution especially in suppressing rapidly generated mainlobe jammers, where comparisons among different frameworks and methodologies are carried out. © 1965-2011 IEEE.

Research Area(s)

  • alternating direction method of multipliers (ADMM).F, alternating direction method of multipliers (ADMM).requency diverse array multiple-input multiple-output (FDAMIMO) radar, low-rank matrix decomposition, mainlobe deceptive jammer suppression, rapidly generated mainlobe jammers, requency diverse array multiple-input multipleoutput (FDA-MIMO) radar