This paper develops a SAR image reconstruction technique that incorporates knowledge of the scene to be imaged. This knowledge takes the form of predictions of the electromagnetic field propagation throughout the known portion of the scene, a predicted-wavefront map. This technique predicts wavefronts with INSSITE/RFScene based on an electromagnetic scattering model of the known portion. The novel SAR image reconstruction technique incorporates this predicted wavefront map into a filtered-backprojection framework, hence the name Predicted-Wavefront Backprojection. While this paper uses only results from INSSITE/RFScene, it formulates predicted-wavefront backprojection with sufficient generality that it can incorporate wavefront predictions from other electromagnetic-scattering codes, such as the full-wave codes TEMPUS, FISC, and SAF. A possible application for predicted-wavefront backprojection is Persistent Intelligence, Surveillance, and Reconnaissance (PISR) of an urban setting.
[1]
Margaret Cheney,et al.
Imaging that exploits multipath scattering from point scatterers
,
2004,
SPIE Defense + Commercial Sensing.
[2]
Richard E. Blahut,et al.
Theory of Remote Image Formation
,
2004
.
[3]
P.J. Shargo,et al.
Model-based Correction of Through-wall SAR Imagery via Raytracing
,
2007,
2007 IEEE Radar Conference.
[4]
J.R. Guerci,et al.
Knowledge-aided adaptive radar at DARPA: an overview
,
2006,
IEEE Signal Processing Magazine.
[5]
Gang Kang,et al.
Electromagnetic time-reversal imaging of a target in a cluttered environment
,
2005,
IEEE Transactions on Antennas and Propagation.
[6]
Hao Ling,et al.
Ray‐tube integration in shooting and bouncing ray method
,
1988
.