Practical Examples of Small Synthetic Aperture Radar Imaging Systems

Radar range equation MATLAB script for linear rail SAR imaging systems.

Data from and MATLAB script for processing X-Band Rail SAR Imaging System.

Data from and MATLAB script for processing S-Band Range Gated FMCW Rail SAR Imaging System.

Data from and MATLAB script for processing X-band Range Gated FMCW SAR Imaging System.

final_truncated_image_example GO STATE, X-band rail SAR image of pushpins.  Data and MATLAB scripts to process provided here.

Radar image of a bike.A Bike, X-band rail SAR image.  Data and MATLAB scripts to process provided here.

mustang_5_0_on_radar5.0 Mustang, X-band FMCW rail SAR image.  Data and MATLAB scripts to process provided here.

MIT_coffeecan_SAR_exampleMIT Coffee Can Radar, SAR image of terrain.  Data and MATLAB scripts to process provided here.

group 92 in pushpinsGROUP 92, X-band range-gated FMCW rail SAR image in pushpins.  Data and MATLAB scripts to process provided here.

GO STATE pushpins range gated XbandGO STATE, X-band range-gated FMCW rail SAR image in pushpins using only 100 nW of transmit power.  Data and MATLAB scripts to process provided here.

low power MSU in pushpins Xband range gated1 nW of transmit power used to acquire this SAR image of MSU in pushpins using the X-band range-gated FMCW rail SAR.  Data and MATLAB scripts to process provided here.

Block S in carriage bolts at S-bandBlock S in 6″ tall carriage bolts using the S-band range-gated FMCW rail SAR.  Data and MATLAB scripts to process provided here.

block S 10nw Sband imageBlock S in 6″ tall carriage bolts using the S-band range-gated FMCW rail SAR with only 10 nW of transmit power.  Data and MATLAB scripts to process provided here.

block S 100pW using range gated S-band radarBlock S in 6″ tall carriage bolts using the S-band range-gated FMCW rail SAR with only 100 pW of transmit power.  Data and MATLAB scripts to process provided here.

Block S 5pwWhere the image starts to fall apart.  Block S in 6″ tall carriage bolts using the S-band range-gated FMCW rail SAR with only 5 pW of transmit power.  Data and MATLAB scripts to process provided here.