Add to ORKGMicro-Doppler signature produced by micro-motion contains movement and structure information which is useful for radar classification and recognition. In order to recognize the wheeled vehicle and the tracked vehicle in ground battle, the motion dynamics and echo models of the scattering point on wheeled vehicle and tracked vehicle are set up respectively. Then the micro-Doppler features of them are quantitatively analyzed. Furthermore, the smoothed pseudo Winger-Ville distribution method is proposed for extracting micro-Doppler modulation. Finally, simulation results demonstrate the correctness of the theoretic analysis and the validity of the extraction method
This study aims to experimentally investigate the feasibility of discriminating human motions with t...
Human motions give rise to frequency modulations, known as micro-Dopplers, to continuous wave radar ...
Radar technology has commonly been used to estimate the speed and distance of a moving object. In re...
Micro-Doppler effects of moving vehicles in a radar system are mainly induced by the rotation of whe...
n traditional ISAR imaging, rigid-body motion is usually assumed without considering non-stationary ...
A set of experimental trials was conducted with a 10 GHz continuous wave radar to collect micro-Dopp...
When, in addition to the constant Doppler frequency shift induced by the bulk motion of a radar targ...
The target echo signals obtained by Synthetic Aperture Radar (SAR) and Ground Moving Target Indicato...
The capability of a radar system to detect and identify the low-slow-small rotor unmanned aerial veh...
Forward scatter radar (FSR) is actively studied in the field of radars, as it has many advantages su...
Automatic target recognition based on features obtained from micro-Doppler signatures has a great po...
Radar systems have become one of the principal sensory components in automotive vehicles, due to the...
Micro-Doppler signature can convey information of detected targets and has been used for target reco...
Target motions, other than the main bulk translation of the target, induce Doppler modulations aroun...
Coherent radar measures micro-Doppler properties of moving objects. The micro-Doppler signature depe...
This study aims to experimentally investigate the feasibility of discriminating human motions with t...
Human motions give rise to frequency modulations, known as micro-Dopplers, to continuous wave radar ...
Radar technology has commonly been used to estimate the speed and distance of a moving object. In re...
Micro-Doppler effects of moving vehicles in a radar system are mainly induced by the rotation of whe...
n traditional ISAR imaging, rigid-body motion is usually assumed without considering non-stationary ...
A set of experimental trials was conducted with a 10 GHz continuous wave radar to collect micro-Dopp...
When, in addition to the constant Doppler frequency shift induced by the bulk motion of a radar targ...
The target echo signals obtained by Synthetic Aperture Radar (SAR) and Ground Moving Target Indicato...
The capability of a radar system to detect and identify the low-slow-small rotor unmanned aerial veh...
Forward scatter radar (FSR) is actively studied in the field of radars, as it has many advantages su...
Automatic target recognition based on features obtained from micro-Doppler signatures has a great po...
Radar systems have become one of the principal sensory components in automotive vehicles, due to the...
Micro-Doppler signature can convey information of detected targets and has been used for target reco...
Target motions, other than the main bulk translation of the target, induce Doppler modulations aroun...
Coherent radar measures micro-Doppler properties of moving objects. The micro-Doppler signature depe...
This study aims to experimentally investigate the feasibility of discriminating human motions with t...
Human motions give rise to frequency modulations, known as micro-Dopplers, to continuous wave radar ...
Radar technology has commonly been used to estimate the speed and distance of a moving object. In re...