Performance of receivers with linear detectors

Author

Helstrom, Carl W.

Author_Institution

Dept. of Electr. & Comput. Eng., California Univ., San Diego, CA, USA

Volume

26

Issue

2

fYear

1990

fDate

3/1/1990 12:00:00 AM

Firstpage

210

Lastpage

217

Abstract

The false-alarm and detection probabilities of a receiver summing M independent outputs of a linear detector are calculated by numerical saddlepoint integration. The saddlepoint approximation is also considered. Both constant-amplitude and Rayleigh-fading signals are treated, and the relative efficiency of the quadratic and the linear detectors for these is calculated for a broad range of values of M . The numerical integration method is the more efficient, the smaller the false-alarm probability or the false-dismissal probability, that is, under just those conditions for which the terms in the Gram-Charlier series oscillate most violently and the series becomes least reliable. The simpler saddlepoint approximation yields values that in those same regions have been found close enough to the exact probabilities to be adequate for most engineering purposes. The larger the number M of samples, the more efficient methods are

Keywords

approximation theory; integration; numerical methods; probability; radar receivers; radar theory; signal detection; Gram-Charlier series; Rayleigh-fading signals; constant-amplitude; detection probabilities; efficiency; false-alarm; false-dismissal probability; linear detectors; numerical saddlepoint integration; quadratic detectors; receivers; saddlepoint approximation; Density functional theory; Detectors; Gaussian noise; Probability density function; Random variables; Rayleigh channels; Rectifiers; Signal detection; Signal to noise ratio; Tail;

fLanguage

English

Journal_Title

Aerospace and Electronic Systems, IEEE Transactions on

Publisher

ieee

ISSN

0018-9251

Type

jour

DOI

10.1109/7.53439

Filename

53439