DocumentCode
2278376
Title
Phase drift effects in optical CDMA
Author
Rusch, Leslie A. ; Poor, H. Vincent
Author_Institution
Dept. of Electr. Eng., Laval Univ., Que., Canada
fYear
1994
fDate
28 Nov- 2 Dec 1994
Firstpage
159
Lastpage
165
Abstract
Fiber optic communication systems using CDMA have been proposed. While coherent detection is a reasonable assumption in many RF systems, semiconductor lasers for fiber applications have been shown to suffer from more serious phase variation that precludes fully coherent detection, the focus of previous CDMA research. The authors examine the effect of phase drift on several multiuser detectors for BPSK, as well as two detectors for BFSK. They show that when the desired user´s phase can be tracked, BPSK match filtering offers better bit error rates than BFSK, and the authors derive closed form solutions for the error probabilities in the limit of infinitely long spreading codes modeled as a random sequence of plus and minus ones. When there is no phase tracking, they show that the probability of error of the multiuser detectors approaches one half
Keywords
code division multiple access; digital filters; error statistics; fibre lasers; frequency shift keying; matched filters; optical fibre communication; optical receivers; phase shift keying; random processes; sequences; tracking; BFSK; BPSK; bit error rates; closed form solutions; coherent detection; error probabilities; fiber optic communication; infinitely long spreading codes; match filtering; multiuser detectors; optical CDMA; phase drift effects; phase tracking; phase variation; probability of error; random sequence; semiconductor lasers; Binary phase shift keying; Detectors; Fiber lasers; Laser applications; Multiaccess communication; Optical fiber communication; Optical filters; Phase detection; Radio frequency; Semiconductor lasers;
fLanguage
English
Publisher
ieee
Conference_Titel
Global Telecommunications Conference, 1994. Communications Theory Mini-Conference Record, 1994 IEEE GLOBECOM., IEEE
Conference_Location
San Francisco, CA
Print_ISBN
0-7803-1820-X
Type
conf
DOI
10.1109/CTMC.1994.512597
Filename
512597
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