CALCULATING THE PERFORMANCE OF LINEAR AND SQUARE-LAW DETECTORS

A method is presented for calculating the performance of linear and square-law detectors in detection schemes that employ noncoherent integration. The method consists of transforming the coherent characteristic function which is usually easy to obtain, to a noncoherent moment generating function describing the test statistic of a linear or square-law detector. The method provides a single mathematical framework for many signal models (both classical and new) and can be implemented using standard numerical routines. Although the method is not always optimum in terms of computing speed for specific classical models, its common approach for all signal models makes it very efficient in terms of learning and implementation times. Classical results as well as results for an extended set of target models consisting of an arbitrary number of constant amplitude random phase returns are presented to demonstrate-the technique. It is shown for the signal parameters considered that the performance difference between the linear and square-law detectors is relatively insignificant.