English

Iterative Decoding and Turbo Equalization: The Z-Crease Phenomenon

Information Theory 2015-06-16 v1 math.IT Chaotic Dynamics

Abstract

Iterative probabilistic inference, popularly dubbed the soft-iterative paradigm, has found great use in a wide range of communication applications, including turbo decoding and turbo equalization. The classic approach of analyzing the iterative approach inevitably use the statistical and information-theoretical tools that bear ensemble-average flavors. This paper consider the per-block error rate performance, and analyzes it using nonlinear dynamical theory. By modeling the iterative processor as a nonlinear dynamical system, we report a universal "Z-crease phenomenon:" the zig-zag or up-and-down fluctuation -- rather than the monotonic decrease -- of the per-block errors, as the number of iteration increases. Using the turbo decoder as an example, we also report several interesting motion phenomenons which were not previously reported, and which appear to correspond well with the notion of "pseudo codewords" and "stopping/trapping sets." We further propose a heuristic stopping criterion to control Z-crease and identify the best iteration. Our stopping criterion is most useful for controlling the worst-case per-block errors, and helps to significantly reduce the average-iteration numbers.

Keywords

Cite

@article{arxiv.1306.0585,
  title  = {Iterative Decoding and Turbo Equalization: The Z-Crease Phenomenon},
  author = {Jing Li and Kai Xie},
  journal= {arXiv preprint arXiv:1306.0585},
  year   = {2015}
}

Comments

6 pages

R2 v1 2026-06-22T00:27:22.888Z