[3] FALCONI M T,LOMBARDO P,PASTINA D,et al. A closed-form model for long-and short-range forward scatter radar signals from rectangular conductive targets[J]. IEEE Transactions on Aerospace and Electronic Systems, 2020,56(2):1370-1390.
[4] CONTU M,DE LUCA A,HRISTOV S,et al. Passive multifrequency forward-scatter radar measurements of airborne targets using broadcasting signals[J]. IEEE Transactions on Aerospace and Electronic Systems, 2017,53(3):1067-1087.
[5] HU C,LIU C,WANG R,et al. Detection and SISAR imaging of aircrafts using GNSS forward scatter radar:signal modeling and experimental validation[J]. IEEE Transactions on Aerospace and Electronic Systems, 2017,53(4):2077-2093.
[6] SUBERVIOLA I,MAYORDOMO I,MENDIZABAL J. Experimental results of air target detection with a GPS forward-scattering radar[J]. IEEE Geoscience and Remote Sensing Letters, 2012,9(1):47-51.
[7] CLEMENTE C, SORAGHAN J J. GNSS-based passive bistatic radar for micro-Doppler analysis of helicopter rotor blades[J]. IEEE Transactions on Aerospace and Electronic Systems, 2014,50(1):491-500.
[8] CHERNIAKOV M, ABDULLAH R S A R, JANCOVIC P, et al. Automatic ground target classification using forward scattering radar[J]. IEEE Proceedings-Radar,Sonar and Navigation, 2006,153(5):427-437.
[9] COLONE F,MARTELLI T,LOMBARDO P. Quasi-monostatic versus near forward scatter geometry in WiFi-based passive radar sensors[J]. IEEE Sensors Journal, 2017,17(15):4757-4772.
[11] HU C,LONG T,ZENG T. Statistic characteristic analysis of forward scattering surface clutter in bistatic radar[J]. Science China Information Sciences, 2010,53(12):2675-2686.