Hybrid optical correlator/digital processor for target detection and discrimination

Abstract

An optical correlator is used to detect the presence of a target in a laser detection and ranging (LADAR) system by analyzing the return signal, and to provide initial estimates of the targets range and velocity to the LADAR receiver. The optical correlator includes an acoustic optical Bragg cell that deflects an input laser signal using the received and down-converted LADAR signal. An integrating optical detector is disposed to receive the optical outputs of the acoustic optical Bragg cell and an optical processor analyzes and processes the integrating optical detector data. The integrating optical detector integrates the optical outputs of the Bragg cell over time and the integrating optical detector output is sampled over a sampling period so that target detection is uncorrelated to noise. An integrating optical detector data point that exceeds a predetermined threshold is considered to be a valid detected target and the location of the output of the optical correlator on the integrating optical detector is indicative of the Doppler shift and hence the velocity of the detected target. The time of detection of the target is indicative of the range to the target. This allows the range-Doppler-amplitude of the target to be estimated and provided to the receiver to allow for more accurate processing of the receiver data. In addition, the optical correlator can be used to provide whole body Doppler and range estimates of the target and can also inherently averages the speckle data.