Improved Interleave-Division Multiple Access (IDMA) Performance Using Dynamic FEC Code Allocation

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Linton, Lance, Conder, Phillip and Faulkner, Michael (2010) Improved Interleave-Division Multiple Access (IDMA) Performance Using Dynamic FEC Code Allocation. In: 2010 IEEE wireless communications and networking conference WCNC 2010 : proceedings : Sydney, Australia, 18-21 April, 2010. IEEE, Piscataway, N.J..

Abstract

Interleave-division multiple-access (IDMA) has recently been proposed as a multiuser scheme that uses low complexity turbo-like iterative receivers and can outperform coded CDMA. Power allocation has been shown as an effective means for improving the performance of iterative receivers, and can be readily applied to multiuser systems including IDMA and CDMA. Power allocation allows the decoder to operate in a successive cancellation (or onion peeling) mode where the higher-power layers converge first, decreasing their contribution to the residual noise, and then the lower-power layers converge. In this paper, we propose an alternative optimisation approach where users are allocated different FEC codes in order to achieve onion peeling operation at the receiver and thereby improve system performance. We derive a numerical method for optimising performance based on FEC code allocation, and simulation results are presented. For small multiuser systems, results demonstrate that the performance of the proposed system approaches the theoretical single user bound.

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Item type Book Section
URI https://vuir.vu.edu.au/id/eprint/9947
DOI 10.1109/WCNC.2010.5506750
Official URL http://0-ieeexplore.ieee.org.library.vu.edu.au/sta...
ISBN 9781424463961 (print), 9781424463985
Subjects Historical > Faculty/School/Research Centre/Department > Centre for Telecommunications and Micro-Electronics (CTME)
Historical > FOR Classification > 1005 Communications Technologies
Historical > SEO Classification > 8617 Communication Equipment
Keywords ResPubID21289, Communications Society, detectors, forward error correction, iterative decoding, multiaccess communication, multiuser detection, noise cancellation, optimization methods, optimisation, performance analysis, system performance, systems, coded CDMA, decoders, dynamic FEC code allocation, interleave-division multiple access, low complexity turbo-like iterative receivers, multiuser system schemes, power allocation, successive cancellation mode, multi access
Citations in Scopus 0 - View on Scopus
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