Analysis of Bit Error Probability of Direct-Sequence CDMA Multiuser Demodulators

We analyze the bit error probability of multiuser demodulators for directsequence binaryphase-shift-keying (DSIBPSK) CDMA channel with additive gaussian noise. The problem of multiuser demodulation is cast into the finite-temperature decoding problem, and replica analysis is applied toevaluate the performance of the resulting MPM (Marginal Posterior Mode)demodulators, which include the optimal demodulator and the MAP demodulator as special cases. An approximate implementation ofdemodulators is proposed using analog-valued Hopfield model as a naive mean-field approximation to the MPM demodulators, and its performance is also evaluated by the replica analysis. Results of the performance evaluationshows effectiveness of the optimal demodulator and the mean-field demodulator compared with the conventional one, especially inthe cases of small information bit rate and low noise level. 1 Introduction The CDMA (Code-Division-Multiple-Access) technique [1] is important as a fundamental technology of digital communications systems, such as cellular phones. The important applications includerealization of spread-spectrum multipoint-to-point communications systems, in which multiple users share the same communication channel.