For its intrinsic properties, bistatic SAR processing cannot be approached in the same manner monostatic SAR process-
ing is approached. In general, a bistatic SAR processor is more than a powerful focussing algorithm. Because of the
lack of precise time (range) and phase (Doppler) references in non-cooperative (and even cooperative) bistatic systems, a
prior software synchronisation step is used to correct the residual errors caused by the use of different clocks. Moreover,
depending on the bistatic configuration, different kinds of SAR focussing algorithms can be used. Azimuth-invariant
configurations may benefit from the convolution property of the Fourier transform, whereas more general configurations
are better suited for efficient time-domain techniques. A discussion on the performance of three Fourier-domain focussing
algorithms, range-Doppler, chirp scaling, and range migration, is included in the paper
