Abstract: A method and apparatus for simultaneous spatial light modulator beam steering and system aberration correction. The apparatus includes a spatial light modulator, a wide-field optical system, the wide-field optical system including at least one optical system aberration; and a camera. The wide-field optical system collimates a light beam toward the camera. The camera communicates with the spatial light modulator via a feedback loop that pre-corrects for the at least one optical system aberration.

Abstract: An apparatus including a laser generating a plane wave beam, a first beam splitter splitting the plane wave beam into a first reference laser beam and at least one ideal input beam, at least one second beam splitter, and an angle-magnifying optical element. The at least one second beam splitter reflects the at least one ideal input beam through the angle-magnifying optical element to generate at least one distorted input beam. The apparatus further includes a focal plane array receiving the first reference laser beam and the at least one distorted input beam and recording at least one interference pattern generated by the first reference laser beam and the at least one distorted input beam. The apparatus further includes a spatial light modulator generating the at least one recorded interference pattern, receiving the reference laser beam, and transmitting at least one time-reversed output beam through the angle-magnifying optical element.

Abstract: A method and apparatus for simultaneous spatial light modulator beam steering and system aberration correction. The apparatus includes a spatial light modulator, a wide-field optical system, the wide-field optical system including at least one optical system aberration; and a camera. The wide-field optical system collimates a light beam toward the camera. The camera communicates with the spatial light modulator via a feedback loop that pre-corrects for the at least one optical system aberration.

Abstract: An apparatus including a laser generating a plane wave beam, a first beam splitter splitting the plane wave beam into a first reference laser beam and at least one ideal input beam, at least one second beam splitter, and an angle-magnifying optical element. The at least one second beam splitter reflects the at least one ideal input beam through the angle-magnifying optical element to generate at least one distorted input beam. The apparatus further includes a focal plane array receiving the first reference laser beam and the at least one distorted input beam and recording at least one interference pattern generated by the first reference laser beam and the at least one distorted input beam. The apparatus further includes a spatial light modulator generating the at least one recorded interference pattern, receiving the reference laser beam, and transmitting at least one time-reversed output beam through the angle-magnifying optical element.

Abstract: The present invention enables identification of events such as target. From training target event data the present a very large number of clusters are formed for each class based on Euclidean distance using a repetitive k-means clustering process. Features from each cluster are identified by extracting out their dominant eigenvectors. Once all of the dominant eigenvectors have been identified, they define the relevant space of the cluster. New target event data is compared to each cluster by projecting it onto the relevant and noise spaces. The more the data lies within the relevant space and the less it lies within the noise space the more similar the data is to a cluster. The new target event data is then classified based on the training target event data.