Title :
Multistatic Radar Imaging of Moving Targets
Author :
Wang, Ling ; Cheney, Margaret ; Borden, Brett
Author_Institution :
Rensselaer Polytech. Inst., Troy, NY, USA
Abstract :
We develop a linearized imaging theory that combines the spatial, temporal, and spectral aspects of scattered waves. We consider the case of fixed sensors and a general distribution of objects, each undergoing linear motion; thus the theory deals with imaging distributions in phase space. We derive a model for the data that is appropriate for narrowband waveforms in the case when the targets are moving slowly relative to the speed of light. From this model, we develop a phase-space imaging formula that can be interpreted in terms of filtered backprojection or matched filtering. For this imaging approach, we derive the corresponding phase-space point-spread function (PSF). We show plots of the phase-space point-spread function for various geometries. We also show that in special cases, the theory reduces to: 1) range-Doppler imaging, 2) inverse synthetic aperture radar (ISAR), 3) synthetic aperture radar (SAR), 4) Doppler SAR, and 5) tomography of moving targets.
Keywords :
Doppler radar; geometry; image sensors; phase space methods; radar imaging; scattering; synthetic aperture radar; target tracking; tomography; Doppler SAR; filtered backprojection; inverse synthetic aperture radar; linearized imaging theory; matched filtering; moving target; moving target tomography; multistatic radar imaging; narrowband waveform; object distribution; phase space imaging distribution; phase-space imaging formula; phase-space point-spread function; range-Doppler imaging; scattered wave spectral aspect; speed of light; undergoing linear motion; Image reconstruction; Imaging; Radar imaging; Receivers; Transmitters; Vectors;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
DOI :
10.1109/TAES.2012.6129632
