Message Passing Based Target Localization Under Range Deception Jamming in Distributed MIMO Radar

Recent research shows that distributed radar has great potential in recognizing and countering deception jamming. In this letter, we investigate how to use deception bistatic range measurements to estimate the target location and deception ranges, and propose a message passing based method for targe...

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Veröffentlicht in:	IEEE signal processing letters 2021, Vol.28, p.1858-1862
Hauptverfasser:	Yu, Zehua, Li, Jun, Guo, Qinghua
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Cramer-Rao bounds Deception Distributed MIMO radar Jamming Localization Location awareness Manganese Mathematical models Message passing MIMO radar Radar range deception jamming Receivers target localization Transmitters
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creator	Yu, Zehua Li, Jun Guo, Qinghua
description	Recent research shows that distributed radar has great potential in recognizing and countering deception jamming. In this letter, we investigate how to use deception bistatic range measurements to estimate the target location and deception ranges, and propose a message passing based method for target localization under range deception jamming in distributed MIMO radar. Firstly, the a posteriori distribution of the target location is derived, but its maximization is intractable. Then we represent the joint distribution of the relevant variables as a factor graph model and a highly efficient message passing algorithm is developed, where the target location and deception ranges are estimated iteratively. The Cramer-Rao bound is also derived and numerical simulations are provided to demonstrate the superiority of the proposed method.
doi_str_mv	10.1109/LSP.2021.3108674
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subjects	Algorithms Cramer-Rao bounds Deception Distributed MIMO radar Jamming Localization Location awareness Manganese Mathematical models Message passing MIMO radar Radar range deception jamming Receivers target localization Transmitters
title	Message Passing Based Target Localization Under Range Deception Jamming in Distributed MIMO Radar
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