Open AccessTwo‐stage clutter and interference cancellation method in passive bistatic radar
Author(s) -
Gang Chen,
Jun Wang,
Luo Zuo,
Dawei Zhao,
Yuanyuan Wen
Publication year - 2020
Publication title -
iet signal processing
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.384
H-Index - 42
ISSN - 1751-9683
DOI - 10.1049/iet-spr.2019.0338
Subject(s) - clutter , bistatic radar , single antenna interference cancellation , interference (communication) , computer science , multipath propagation , constant false alarm rate , signal (programming language) , passive radar , multipath interference , radar , acoustics , subspace topology , electronic engineering , telecommunications , channel (broadcasting) , algorithm , physics , radar imaging , artificial intelligence , engineering , programming language
Target echoes are inevitably contaminated by the direct‐path signal, multipath signal and possible interference in passive bistatic radar (PBR). Cancellation performance is deteriorated as the interference signal is irrelevant to the transmitted signal and the target echoes are submerged by in the sidelobe of the spread clutter echoes. In this study, the cancellation problem is addressed, involving clutter and interference. In this method, the spread clutter echoes are cancelled by constructing a tailored clutter subspace. Besides, the interference is also cancelled by constructing a tailored interference subspace. The sample of the interference signal is obtained from the beam channel after clutter cancellation. The performance of the proposed method is first verified by the simulation result. Then its effectiveness is also demonstrated with the application of the real data collected from an experimental PBR system.