DocumentCode
766313
Title
Pe Performance of Coherent M-ary PSK Systems in an Impulsive and Gaussian Noise Environment
Author
Oshita, Shinjiro ; Feher, Kamilo
Author_Institution
Shinshu University, Matsumoto, Japan
Volume
30
Issue
11
fYear
1982
fDate
11/1/1982 12:00:00 AM
Firstpage
2458
Lastpage
2464
Abstract
The general probability of error expressions of coherent 
-ary PSK ( 
) systems in the presence of both impulsive and Gaussian noise are derived. This work is an extension of our paper related to BPSK and DPSK systems in a complex interference environment [1]. The presented impulsive and Gaussian channel disturbance is a first-order approximation to operational multichannel satellite and terrestrial microwave systems in which, in addition to front-end Gaussian noise, out-of-band intermodulation noise may be present. Our analysis contains an extension of the method developed by Bello and Esposito [2], [3], to include the Gaussian as well as the impulsive noise environment. The numerical results show that a well defined threshold region exists, above which the effect of the impulsive noise on the system performance is predominant.
-ary PSK ( ) systems in the presence of both impulsive and Gaussian noise are derived. This work is an extension of our paper related to BPSK and DPSK systems in a complex interference environment [1]. The presented impulsive and Gaussian channel disturbance is a first-order approximation to operational multichannel satellite and terrestrial microwave systems in which, in addition to front-end Gaussian noise, out-of-band intermodulation noise may be present. Our analysis contains an extension of the method developed by Bello and Esposito [2], [3], to include the Gaussian as well as the impulsive noise environment. The numerical results show that a well defined threshold region exists, above which the effect of the impulsive noise on the system performance is predominant.Keywords
Gaussian processes; Impulse noise; Microwave radio communication; PSK communication; Satellite communications; Binary phase shift keying; Differential quadrature phase shift keying; Function approximation; Gaussian noise; Interference; Phase noise; Phase shift keying; Probability density function; Satellites; Working environment noise;
fLanguage
English
Journal_Title
Communications, IEEE Transactions on
Publisher
ieee
ISSN
0090-6778
Type
jour
DOI
10.1109/TCOM.1982.1095439
Filename
1095439
Link To Document