مرکز منطقه ای اطلاع رساني علوم و فناوري - Estimation of a quadrature cross- correlation detector by analog, polarity-coincidence, and relay methods (Corresp.)

Abstract :

The variance of the output of a cross-correlation detector, which is called a quadrature cross-correlation detector, is estimated. In this type of detector two zero-mean Gaussian quadrature processes $\\alpha (t)$ and $\\beta (t)$ of a complex process $(\\alpha (t) -j \\beta (t))$ are cross correlated. This cross-correlation function $R_{A} (\\tau )$ is estimated when neither of the two processes is distorted (the analog method), when both processes are distorted by a signum function before being cross correlated (the polarity coincidence method), and when one of the two processes is distorted by either a signum function or by a "comparator logic" function (the relay method). These quadrature cross-correlation detectors then are compared on the basis of output signal-to-noise ratio (s/n) and the clipping and relay losses are computed for two test quadrature processes of an Edgeworth-expansion-approximated power spectrum. Since $R_{A} (0)$ is zero, the four corresponding differential estimators, such as $(R_{A} (\\tau ) - R_{A} (0))$ are also estimated and are compared on the basis of s/n. For these differential estimators, the clipping and relay losses are computed for the two test processes. In all cases the exact expressions for the s/n are derived as a function of $\\tau$ . Some applications of these correlation detectors are outlined. The mathematical techniques employed here are thought to have potential usefulness for related problems in statistical communication theory and signal processing.