English

Low-Complexity Block-Based Decoding Algorithms for Short Block Channels

Information Theory 2025-02-11 v2 Emerging Technologies math.IT

Abstract

This paper presents low-complexity block-based encoding and decoding algorithms for short block length channels. In terms of the precise use-case, we are primarily concerned with the baseline 3GPP Short block transmissions in which payloads are encoded by Reed-Muller codes and paired with orthogonal DMRS. In contemporary communication systems, the short block decoding often employs the utilization of DMRS-based least squares channel estimation, followed by maximum likelihood decoding. However, this methodology can incur substantial computational complexity when processing long bit length codes. We propose an innovative approach to tackle this challenge by introducing the principle of block/segment encoding using First-Order RM Codes which is amenable to low-cost decoding through block-based fast Hadamard transforms. The Block-based FHT has demonstrated to be cost-efficient with regards to decoding time, as it evolves from quadric to quasi-linear complexity with a manageable decline in performance. Additionally, by incorporating an adaptive DMRS/data power adjustment technique, we can bridge/reduce the performance gap and attain high sensitivity, leading to a good trade-off between performance and complexity to efficiently handle small payloads.

Keywords

Cite

@article{arxiv.2404.10798,
  title  = {Low-Complexity Block-Based Decoding Algorithms for Short Block Channels},
  author = {Mody Sy and Raymond Knopp},
  journal= {arXiv preprint arXiv:2404.10798},
  year   = {2025}
}

Comments

Paper accepted and presented at the 16th IEEE AFRICON 2023, Nairobi, Kenya, Sept 20 to 22, 2023. arXiv admin note: substantial text overlap with arXiv:2404.10065

R2 v1 2026-06-28T15:56:12.931Z