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We discuss designing M-phase spreading sequences of Markov chains optimal in terms of bit error probabilities, where M=3,4,···. We consider SSMA (spread spectrum multiple access) communication systems using M-phase spreading sequences of Markov chains and give a necessary and sufficient condition that the limit of variance of the real part of the normalized MAI (multiple-access interference) for such systems becomes independent of the phase shifts. We also give a necessary and sufficient condition that the distribution of the real part of the normalized MAI is Gaussian. Based on these results, we discuss the optimum 3-phase and Q (quadratic)-phase spreading sequences of Markov chains in terms of bit error probabilities in SSMA communication systems.
Circuits and Systems, 2004. ISCAS '04. Proceedings of the 2004 International Symposium on (Volume:4 )
Date of Conference: 23-26 May 2004