Title :
Wiener-optimum linear detectors for non-Gaussian channels
Author_Institution :
Dept. of Electr. & Comput. Eng., Rice Univ., Houston, TX
Abstract :
Optimal detectors for non-Gaussian channels are nonlinear, and are therefore sensitive to problem parameters. We describe a technique for designing linear detectors for arbitrary additive noise channels that takes into account dependence structure, amplitude distribution, and transmitted signals. This technique is based on Wiener´s theory of nonlinear systems, and amounts to cross-correlating the optimal detector´s output with its input when it is driven by white Gaussian noise. We have not proven this linear detector´s optimality; simulations demonstrate that it has some of the properties required of optimal detectors in several cases
Keywords :
Gaussian channels; Gaussian noise; filtering theory; matched filters; nonlinear systems; signal detection; white noise; Wiener nonlinear systems theory; Wiener-optimum linear detectors; additive noise channels; amplitude distribution; cross-correlation; matched filter; non-Gaussian channels; nonlinear detectors; optimal detectors; simulations; transmitted signals; white Gaussian noise; Additive noise; Detectors; Gaussian noise; Matched filters; Signal design; Signal detection; Signal processing; Signal to noise ratio; Vectors; White noise;
Conference_Titel :
Digital Signal Processing Workshop, 1994., 1994 Sixth IEEE
Conference_Location :
Yosemite National Park, CA
Print_ISBN :
0-7803-1948-6
DOI :
10.1109/DSP.1994.379861
