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Performance of M-ary/SSMA using soft decision Viterbi decoding.

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Titel:	Performance of M-ary/SSMA using soft decision Viterbi decoding.
Autoren:	Ito, Katsuyuki¹, Hamamura, Masanori², Tachikawa, Shinichi¹
Quelle:	Electronics & Communications in Japan, Part 3: Fundamental Electronic Science. Jun2002, Vol. 85 Issue 6, p11-20. 10p.
Schlagwörter:	SPREAD spectrum communications, TELECOMMUNICATION, TELECOMMUNICATION systems, ELECTRIC interference, COMPUTER simulation, SIMULATION methods & models
Abstract:	In this paper, we discuss the performance of M-ary/SSMA and M-ary/SSMA systems using convolutional code and co-channel interference (CCI) cancellation techniques. First, we show a proposed system model and describe a soft decision method of M-ary/SS which can operate soft decision Viterbi decoding. Next, we evaluate the system performance in an AWGN environment and a Rayleigh fading environment by computer simulations. As a result, spectral efficiency of the system using convolutional code is improved in both environments, though its effects depend on the coding rate. Finally, we discuss the systems using CCI cancellation and convolutional code. As a result, when the spreading factor becomes large, its performance becomes inferior to that of the system which applies no convolutional code in an AWGN environment. However, under a Rayleigh fading environment, a considerable improvement of the performance can be obtained. © 2002 Scripta Technica, Electron Comm Jpn Pt 3, 85(6): 11–20, 2002 [ABSTRACT FROM AUTHOR]
Datenbank:	Academic Search Index

Beschreibung
Abstract:	In this paper, we discuss the performance of M-ary/SSMA and M-ary/SSMA systems using convolutional code and co-channel interference (CCI) cancellation techniques. First, we show a proposed system model and describe a soft decision method of M-ary/SS which can operate soft decision Viterbi decoding. Next, we evaluate the system performance in an AWGN environment and a Rayleigh fading environment by computer simulations. As a result, spectral efficiency of the system using convolutional code is improved in both environments, though its effects depend on the coding rate. Finally, we discuss the systems using CCI cancellation and convolutional code. As a result, when the spreading factor becomes large, its performance becomes inferior to that of the system which applies no convolutional code in an AWGN environment. However, under a Rayleigh fading environment, a considerable improvement of the performance can be obtained. © 2002 Scripta Technica, Electron Comm Jpn Pt 3, 85(6): 11–20, 2002 [ABSTRACT FROM AUTHOR]
ISSN:	10420967
DOI:	10.1002/ecjc.1097