Time filter

Source Type

Li S.,Ari Force Engineering University | Zhu F.,PLA Air Force Aviation University | Liu C.-Y.,Ari Force Engineering University | Feng Y.-Q.,Ari Force Engineering University | Zhang Q.,PLA Air Force Aviation University
Dianbo Kexue Xuebao/Chinese Journal of Radio Science | Year: 2011

The key of ballistic missile recognition by micro-Doppler is to extract micro-Dopper from wideband radar echo signal. It is the high-speed sampling that results in higher demand of hardware and algorithm. The compressive sensing theory is applied to the extraction of micro-Doppler from wideband radar echo signal. The micro-Doppler formula of ballistic missile targets is derived, and the method of extracting micro-Doppler from wideband radar echo signal via compressive sensing is improved. The micro-Doppler extracted from the radar echo of ballistic missile targets by means of compressive sensing under low sample frequency is consistent in that extracted by Gabor transform under high-speed sample frequency, which means the method of extracting micro-Dopple based on compressive sensing which can debase the sampling of the ballistic missile radar ecoh and lower the difficulty of actualization is feasible and effective. © 2011 by Editorial Department of Chinese Journal of Radio Science.

Loading Ari Force Engineering University collaborators
Loading Ari Force Engineering University collaborators