Title :
Imaging of Micromotion Targets With Rotating Parts Based on Empirical-Mode Decomposition
Author :
Bai, Xueru ; Xing, Mengdao ; Zhou, Feng ; Lu, Guangyue ; Bao, Zheng
Author_Institution :
Nat. Key Lab. for Radar Signal Process., Xidian Univ., Xian
Abstract :
For micromotion targets with rotating parts, the inverse synthetic-aperture-radar image of the main body may be shadowed by the micro-Doppler. To solve this problem, this paper proposes an imaging algorithm based on the complex-valued empirical-mode decomposition. First, the radar echoes are decomposed into a series of complex-valued intrinsic-mode functions (IMFs). Then, the IMFs from the rotating parts and those from the main body are separated according to the characteristics of their zero-crossings. Finally, the well-focused imaging of the main body via traditional imaging algorithm and the accurate parameter estimation of the rotating part can be obtained. Both the imaging results for the simulated and measured data are given to verify the validity of the proposed algorithm.
Keywords :
aerospace components; helicopters; military radar; radar cross-sections; remote sensing by radar; rotating bodies; rotors; synthetic aperture radar; ISAR imaging algorithm; aerial micromotion targets imaging; aircraft rotors; complex-valued empirical-mode decomposition; complex-valued intrinsic-mode functions; helicopter blades; inverse synthetic-aperture-radar image; micro-Doppler; radar echoes; rotating parts; Associate members; Chirp; Doppler radar; Feature extraction; Frequency; Inverse synthetic aperture radar; Parameter estimation; Radar imaging; Signal processing algorithms; Vibrations; Empirical-mode decomposition (EMD); inverse synthetic aperture radar (ISAR); micro-Doppler (m-D);
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
DOI :
10.1109/TGRS.2008.2002322
