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A low-complexity diversity-preserving universal bit-flipping enhanced hard decision decoder for arbitrary linear codes

A low-complexity diversity-preserving universal bit-flipping enhanced hard decision decoder for arbitrary linear codes
A low-complexity diversity-preserving universal bit-flipping enhanced hard decision decoder for arbitrary linear codes
V2X (Vehicle-to-everything) communication relies on short messages for short-range transmissions over a fading wireless channel, yet requires high reliability and low latency. Hard-decision decoding sacrifices the preservation of diversity order, leading to pronounced performance degradation in fading channels. By contrast, soft-decision decoding retains diversity order, albeit at the cost of increased computational complexity. We introduce a novel enhanced hard-decision decoder termed as the Diversity Flip decoder (DFD) designed for preserving the diversity order. Moreover, it exhibits ‘universal’ applicability to all linear block codes. For a C(n,k) code having a minimum distance dmin, the proposed decoder incurs a worst-case complexity order of 2(dmin−1)−1. Notably, for codes having low dmin, this complexity represents a significant reduction compared to the popular soft and hard decision decoding algorithms. Due to its capability of maintaining diversity at a low complexity, it is eminently suitable for applications such as V2X (Vehicle-to-everything), IoT (Internet of Things), mMTC (Massive Machine type Communications), URLLC (Ultra-Reliable Low Latency Communications) and WBAN (Wireless Body Area Networks) for efficient decoding with favorable performance characteristics. The simulation results provided for various known codes and decoding algorithms validate the performance versus complexity benefits of the proposed decoder.
2644-1330
Bere, Praveen Sai
cbc2c4ec-5a59-4b5e-a819-794d41e234ad
Khan, Mohammed Zafar Ali
b24a5a1f-f17e-4533-97e0-fa94b3624b5d
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Bere, Praveen Sai
cbc2c4ec-5a59-4b5e-a819-794d41e234ad
Khan, Mohammed Zafar Ali
b24a5a1f-f17e-4533-97e0-fa94b3624b5d
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1

Bere, Praveen Sai, Khan, Mohammed Zafar Ali and Hanzo, Lajos (2024) A low-complexity diversity-preserving universal bit-flipping enhanced hard decision decoder for arbitrary linear codes. IEEE Open Journal of Vehicular Technology, 5. (doi:10.1109/OJVT.2024.3437470).

Record type: Article

Abstract

V2X (Vehicle-to-everything) communication relies on short messages for short-range transmissions over a fading wireless channel, yet requires high reliability and low latency. Hard-decision decoding sacrifices the preservation of diversity order, leading to pronounced performance degradation in fading channels. By contrast, soft-decision decoding retains diversity order, albeit at the cost of increased computational complexity. We introduce a novel enhanced hard-decision decoder termed as the Diversity Flip decoder (DFD) designed for preserving the diversity order. Moreover, it exhibits ‘universal’ applicability to all linear block codes. For a C(n,k) code having a minimum distance dmin, the proposed decoder incurs a worst-case complexity order of 2(dmin−1)−1. Notably, for codes having low dmin, this complexity represents a significant reduction compared to the popular soft and hard decision decoding algorithms. Due to its capability of maintaining diversity at a low complexity, it is eminently suitable for applications such as V2X (Vehicle-to-everything), IoT (Internet of Things), mMTC (Massive Machine type Communications), URLLC (Ultra-Reliable Low Latency Communications) and WBAN (Wireless Body Area Networks) for efficient decoding with favorable performance characteristics. The simulation results provided for various known codes and decoding algorithms validate the performance versus complexity benefits of the proposed decoder.

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More information

Accepted/In Press date: 31 July 2024
e-pub ahead of print date: 2 August 2024
Learn more about Next Generation Wireless research

Identifiers

Local EPrints ID: 504252
URI: http://eprints.soton.ac.uk/id/eprint/504252
DOI: doi:10.1109/OJVT.2024.3437470
ISSN: 2644-1330
PURE UUID: d0e17cb4-fde8-4bce-95d0-b8330343cddc
ORCID for Lajos Hanzo: ORCID iD orcid.org/0000-0002-2636-5214

Catalogue record

Date deposited: 02 Sep 2025 16:47
Last modified: 03 Sep 2025 01:33

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Contributors

Author: Praveen Sai Bere
Author: Mohammed Zafar Ali Khan
Author: Lajos Hanzo ORCID iD

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