Title :
Code Design for Iterative Decoding of Multilevel Codes
Author :
Yi Wang ; Burr, Alister G.
Author_Institution :
Dept. of Electron., Univ. of York, York, UK
Abstract :
The code design problem for multilevel coded modulation with iterative decoding (MLCM-ID) has been left unsolved over a decade. In this paper, we define the code design criterion for MLCM-ID based on a novel concept-parametrically-mapped EXIT (PM-EXIT) function. We derive the EXIT functions for MLCM-ID, and present the mathematical work by which the three area theorems of PM-EXIT function are proved. This gives theoretical support of the curve-fitting techniques used in MLCM-ID, and also provides firm proof that the PM-EXIT function design rule allows in principle capacity-achieving code assignment. The simulation results perfectly match the theoretical analysis, and also confirm that the design rule proposed fully exploits the flexibility of MLCM-ID in the choice of codes. Both in theory and simulations, our code design is verified.
Keywords :
curve fitting; iterative decoding; PM-EXIT; code design; curve-fitting techniques; iterative decoding; multilevel coded modulation; multilevel codes; parametrically-mapped EXIT function; principle capacity-achieving code assignment; Convergence; Decoding; Demodulation; Iterative decoding; Mathematical model; Signal to noise ratio; Trajectory; EXIT functions; Multilevel codes; iterative decoding;
Journal_Title :
Communications, IEEE Transactions on
DOI :
10.1109/TCOMM.2015.2438067
