Open AccessTwo‐dimensional deceptive jamming mitigation algorithm for SAR imaging using frequency diverse array
Author(s) -
Lin Chenchen,
Huang Puming,
Li Yu,
Wang Weiwei
Publication year - 2019
Publication title -
the journal of engineering
Language(s) - English
Resource type - Journals
ISSN - 2051-3305
DOI - 10.1049/joe.2019.0712
Subject(s) - jamming , computer science , synthetic aperture radar , filter (signal processing) , algorithm , range (aeronautics) , beam steering , main lobe , frequency domain , signal (programming language) , aperture (computer memory) , antenna (radio) , electronic engineering , acoustics , telecommunications , artificial intelligence , computer vision , physics , engineering , thermodynamics , programming language , aerospace engineering
The synthetic aperture radar (SAR) may be threatened greatly by the deceptive jamming within its main‐lobe. To tackle this problem, a two‐dimensional self‐adaptive frequency diverse array (FDA)‐based SAR processing scheme is proposed in this study. Considering that transmit and receive steering vectors of FDA are range‐angle dependent, in FDA‐SAR, the spectrum distributions of true targets and jamming in joint transmit‐receive frequency domain depends on the actual locations of scattering points and the jammer, respectively. Therefore, the false signal can be distinguished due to the mismatch in either range or angle. Then by employing a two‐dimensional self‐adaptive filter, the phony targets can be mitigated even if the jammer locates in the main beam. In the end, the simulation results showed that it achieves enhanced suppression capability and smaller ineffective area comparing with the static spatial filter in conventional multichannel SAR.