
Accession Number : ADP005747
Title : Envelope and Phase Statistics for NonGaussian Noise and Resulting Error Probabilities for Digital Communications Systems,
Corporate Author : PLESSEY ELECTRONIC SYSTEMS RESEARCH LTD ROKE MANOR (ENGLAND)
Personal Author(s) : Roberts, J. H.
Report Date : NOV 1987
Pagination or Media Count : 15
Abstract : It is becoming increasingly realised that the electromagnetic environment through which signalling is to be performed should be given serious attention from the point of view of its statistical characteristics when systems of communication, command, or control, are planned. When data from a particular scenario is processed to produce a distribution of instantaneous noise amplitudes it is often observed that the statistics are nonGaussian, with a slow falloff in the distribution tail. The problem addressed here is how such noise affects the envelope and the phase of narrowband transmissions operating in such scenarios, leading on to performance predictions for the standard digital modulation techniques. In the paper statistical properties of the envelope and phase are first derived in a general manner. A new formula is given, for example, for the probability that a noise envelope sample exceeds a sample of the envelope of Signal + Noise. This is the basic statistic needed for assessing incoherently detected situations such as Oring or FSK. In order to apply the results to specific noise types three kinds of nonGaussian noise are studied which have intrinsic interest. These are: (a) Cauchy noise, (b) Quartic noise, and (c) A mixture of Gaussian + Impulsive noise.
Descriptors : *INFORMATION THEORY, *STATISTICS, *PHASE SHIFT, *GAUSSIAN NOISE, DIGITAL COMMUNICATIONS, ERRORS, NATO.
Subject Categories : Cybernetics
Distribution Statement : APPROVED FOR PUBLIC RELEASE