Title :
Iterative multiuser joint decoding: unified framework and asymptotic analysis
Author :
Boutros, Joseph ; Caire, Giuseppe
Author_Institution :
Ecole Nat. Superieure des Telecommun., Paris, France
fDate :
7/1/2002 12:00:00 AM
Abstract :
We present a framework for iterative multiuser joint decoding of code-division multiple-access (CDMA) signals, based on the factor-graph representation and on the sum-product algorithm. In this framework, known parallel and serial, hard and soft interference cancellation algorithms are derived in a unified way. The asymptotic performance of these algorithms in the limit of large code block length can be rigorously analyzed by using density evolution. We show that, for random spreading in the large-system limit, density evolution is considerably simplified. Moreover, by making a Gaussian approximation of the decoder soft output, we show that the behavior of iterative multiuser joint decoding is approximately characterized by the stable fixed points of a simple one-dimensional nonlinear dynamical system
Keywords :
Gaussian processes; approximation theory; binary codes; code division multiple access; convolutional codes; error statistics; graph theory; interference suppression; interleaved codes; iterative decoding; multiuser channels; trellis codes; 1D nonlinear dynamical system; BER analysis; CDMA signals; Gaussian approximation; M-PSK trellis codes; asymptotic analysis; asymptotic performance; binary convolutional codes; bit-interleaving; code block length; code-division multiple-access; decoder soft output; density evolution; factor-graph representation; hard interference cancellation algorithm; iterative multiuser joint decoding; large-system limit; multiuser detection; one-dimensional nonlinear dynamical system; parallel interference cancellation algorithm; random spreading; serial interference cancellation algorithm; soft interference cancellation algorithm; stable fixed points; sum-product algorithm; Algorithm design and analysis; Bit error rate; Interference cancellation; Iterative algorithms; Iterative decoding; Maximum likelihood decoding; Multiaccess communication; Multiuser detection; Performance analysis; Sum product algorithm;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2002.1013125
