Go to WCNC 2000 homepageMaximum likelihood multi-user detection for fast frequency hopping/multiple frequency shift keying systems
Abstract: The maximum likelihood (ML) multi-user detector is developed for fast frequency hopping/multiple frequency shift keying (FFH/MFSK) multiple access (MA) systems. The channels are modeled with Rayleigh fading and additive, white Gaussian noise (AWGN). The FFH system has L chips per symbol, and each user has a unique L-chip hopping pattern over 2/sup K/ frequencies. The M users are assumed to be chip-synchronized at the receiver, and the receiver performs non-coherent detection. The ML multiuser detector simultaneously performs diversity combining and joint symbol detection, but the computational requirements are prohibitive if the 2/sup KM/ symbol combinations are searched exhaustively. We propose a reduced-complexity multiuser detection algorithm for FFH/MFSK MA systems, and we demonstrate through simulations that the new algorithm performs better than existing multiuser detection algorithms on channels with AWGN and Rayleigh fading.
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