Title :
On Predicting Convergence of Iterative MIMO Detection-Decoding With Concatenated Codes
Author :
Ibing, Andreas ; Boche, Holger
Author_Institution :
Fraunhofer Inst. for Telecommun., Heinrich-Hertz-Inst., Berlin, Germany
Abstract :
We evaluate the applicability of methods from stochastic decoding analysis to convergence prediction of iterative multiple-input-multiple-output (MIMO) detection decoding. The one-parametric conditional Gaussian log-likelihood ratio (LLR) distribution model, which underlies EXtrinsic Information Transfer (EXIT) charts, is not adequate for some practically relevant scenarios such as fading MIMO channels. A more recent two-parametric Gaussian model, which better fits arbitrary distributions, can be combined with an offset compensation to allow for a chart-based prediction of the convergence of iterative receiver processing in these cases.
Keywords :
Gaussian processes; MIMO systems; concatenated codes; fading channels; iterative decoding; EXIT charts; arbitrary distributions; chart-based prediction; concatenated codes; convergence prediction; extrinsic information transfer charts; fading MIMO channels; iterative MIMO detection-decoding; iterative multiple-input-multiple-output detection decoding; iterative receiver processing; offset compensation; one-parametric conditional Gaussian log-likelihood ratio distribution model; predicting convergence; stochastic decoding analysis; two-parametric Gaussian model; Bit error rate; Concatenated codes; Convergence; Decoding; Fading; Iterative decoding; Iterative methods; MIMO; Permission; Receivers; Schedules; Signal to noise ratio; Stochastic processes; Tellurium; Turbo codes; Convergence; EXtrinsic Information Transfer (EXIT) chart; iterative detection decoding; multiple-input multiple-output (MIMO); turbo code;
Journal_Title :
Vehicular Technology, IEEE Transactions on
DOI :
10.1109/TVT.2010.2066295
