Signal processing for accelerating moving targets

Abstract

A method for performing signal processing for accelerating moving targets, in one implementation, encompasses a method for performing coherent integration of pulses within a CPI for SMTI radar. In an embodiment, the method comprises the steps of determining the Fast Fourier Transform (FFT) for each pulse, and multiplying the FFT by a pulse compression reference function. The method then proceeds by shifting phase of the pulse-compressed FFT by applying a first factor derived from a ground reference point and a second factor derived from a velocity-acceleration hypothesis to provide phase-shifted data, shifting the envelope of the phase-shifted data by applying one factor derived from range history and a second factor derived from a velocity-acceleration hypothesis to provide aligned data, and determining the Inverse FFT for the aligned data to provide a set of target data of the form H(p,i,i,i), where p is CPI number, iis range index, iis velocity index, and iis coarse acceleration index, the latter three indices each referenced to the starting time of the first CPI. In a further embodiment, the invention encompasses first performing coherent integration for each CPI within a dwell of CPIs, then performing non-coherent integration in an efficient way, taking full advantage of the alignment to the starting time of the first CPI.