Successive-Cancellation Flip and Perturbation Decoder of Polar Codes

Charles Pillet; Ilshat Sagitov; Dominic Deslandes; Pascal Giard

doi:10.1109/WCNC61545.2025.10978372

Successive-Cancellation Flip and Perturbation Decoder of Polar Codes

Charles Pillet
, Ilshat Sagitov
, Dominic Deslandes
, Pascal Giard

École de technologie supérieure

Résultats de recherche: Chapitre dans un livre, rapport, actes de conférence › Participation à un ouvrage collectif lié à un colloque ou une conférence › Revue par des pairs

Résumé

In this paper, two decoding algorithms based on Successive-Cancellation (SC) are proposed to improve the error-correction performance of cyclic redundancy check (CRC)-aided polar codes while aiming for a low-complexity implementation. Comparisons with Dynamic SC Flip (DSCF) and SC Perturbation (SCP) are carried out since the proposed DSCF and Perturbation (DSCFP) and Perturbed DSCF (PDSCF) algorithms combine both methods. The analysis includes comparisons with several code lengths N and various number of decoding attempts T_max. For N=1024 and the coding rate R= 1/2, the DSCF and the SCP algorithms with T_max= 17 are bested by approximately 0.1 dB at block-error rate (BLER) of 0.001. At BLER = 10^-6 and for T_max= 64, the gain is of 0.375 dB and > 0.5 dB with respect to DSCF and SCP, respectively. At high signal-to-noise ratio, the average computational complexity of the proposed algorithms is virtually equivalent to that of SC.

langue originale	Anglais
titre	2025 IEEE Wireless Communications and Networking Conference, WCNC 2025
Editeur	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronique)	9798350368369
Les DOIs	https://doi.org/10.1109/WCNC61545.2025.10978372
état	Publié - 2025
Evénement	2025 IEEE Wireless Communications and Networking Conference, WCNC 2025 - Milan, Italie Durée: 24 mars 2025 → 27 mars 2025

Série de publications

Nom	IEEE Wireless Communications and Networking Conference, WCNC
ISSN (imprimé)	1525-3511

Conférence

Conférence	2025 IEEE Wireless Communications and Networking Conference, WCNC 2025
Pays/Territoire	Italie
La ville	Milan
période	24/03/25 → 27/03/25

Accès au document

10.1109/WCNC61545.2025.10978372

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Lien vers la publication dans Scopus

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Voici les principaux termes ou expressions associés à « Successive-Cancellation Flip and Perturbation Decoder of Polar Codes ». Ces libellés thématiques sont générés à partir du titre et du résumé de la publication. Ensemble, ils forment une empreinte digitale unique.

Contient cette citation

Pillet, C., Sagitov, I., Deslandes, D., & Giard, P. (2025). Successive-Cancellation Flip and Perturbation Decoder of Polar Codes. Dans 2025 IEEE Wireless Communications and Networking Conference, WCNC 2025 (IEEE Wireless Communications and Networking Conference, WCNC). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/WCNC61545.2025.10978372

@inproceedings{c82b337d07734192b651e10a43ef8c56,

title = "Successive-Cancellation Flip and Perturbation Decoder of Polar Codes",

abstract = "In this paper, two decoding algorithms based on Successive-Cancellation (SC) are proposed to improve the error-correction performance of cyclic redundancy check (CRC)-aided polar codes while aiming for a low-complexity implementation. Comparisons with Dynamic SC Flip (DSCF) and SC Perturbation (SCP) are carried out since the proposed DSCF and Perturbation (DSCFP) and Perturbed DSCF (PDSCF) algorithms combine both methods. The analysis includes comparisons with several code lengths N and various number of decoding attempts Tmax. For N=1024 and the coding rate R= 1/2, the DSCF and the SCP algorithms with Tmax= 17 are bested by approximately 0.1 dB at block-error rate (BLER) of 0.001. At BLER = 10-6 and for Tmax= 64, the gain is of 0.375 dB and > 0.5 dB with respect to DSCF and SCP, respectively. At high signal-to-noise ratio, the average computational complexity of the proposed algorithms is virtually equivalent to that of SC.",

keywords = "Decoding, Encoding, Polar codes",

author = "Charles Pillet and Ilshat Sagitov and Dominic Deslandes and Pascal Giard",

note = "Publisher Copyright: {\textcopyright} 2025 IEEE.; 2025 IEEE Wireless Communications and Networking Conference, WCNC 2025 ; Conference date: 24-03-2025 Through 27-03-2025",

year = "2025",

doi = "10.1109/WCNC61545.2025.10978372",

language = "English",

series = "IEEE Wireless Communications and Networking Conference, WCNC",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

booktitle = "2025 IEEE Wireless Communications and Networking Conference, WCNC 2025",

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Pillet, C, Sagitov, I, Deslandes, D & Giard, P 2025, Successive-Cancellation Flip and Perturbation Decoder of Polar Codes. Dans 2025 IEEE Wireless Communications and Networking Conference, WCNC 2025. IEEE Wireless Communications and Networking Conference, WCNC, Institute of Electrical and Electronics Engineers Inc., 2025 IEEE Wireless Communications and Networking Conference, WCNC 2025, Milan, Italie, 24/03/25. https://doi.org/10.1109/WCNC61545.2025.10978372

Successive-Cancellation Flip and Perturbation Decoder of Polar Codes. / Pillet, Charles; Sagitov, Ilshat; Deslandes, Dominic et al.
2025 IEEE Wireless Communications and Networking Conference, WCNC 2025. Institute of Electrical and Electronics Engineers Inc., 2025. (IEEE Wireless Communications and Networking Conference, WCNC).

Résultats de recherche: Chapitre dans un livre, rapport, actes de conférence › Participation à un ouvrage collectif lié à un colloque ou une conférence › Revue par des pairs

TY - GEN

T1 - Successive-Cancellation Flip and Perturbation Decoder of Polar Codes

AU - Pillet, Charles

AU - Sagitov, Ilshat

AU - Deslandes, Dominic

AU - Giard, Pascal

PY - 2025

Y1 - 2025

N2 - In this paper, two decoding algorithms based on Successive-Cancellation (SC) are proposed to improve the error-correction performance of cyclic redundancy check (CRC)-aided polar codes while aiming for a low-complexity implementation. Comparisons with Dynamic SC Flip (DSCF) and SC Perturbation (SCP) are carried out since the proposed DSCF and Perturbation (DSCFP) and Perturbed DSCF (PDSCF) algorithms combine both methods. The analysis includes comparisons with several code lengths N and various number of decoding attempts Tmax. For N=1024 and the coding rate R= 1/2, the DSCF and the SCP algorithms with Tmax= 17 are bested by approximately 0.1 dB at block-error rate (BLER) of 0.001. At BLER = 10-6 and for Tmax= 64, the gain is of 0.375 dB and > 0.5 dB with respect to DSCF and SCP, respectively. At high signal-to-noise ratio, the average computational complexity of the proposed algorithms is virtually equivalent to that of SC.

AB - In this paper, two decoding algorithms based on Successive-Cancellation (SC) are proposed to improve the error-correction performance of cyclic redundancy check (CRC)-aided polar codes while aiming for a low-complexity implementation. Comparisons with Dynamic SC Flip (DSCF) and SC Perturbation (SCP) are carried out since the proposed DSCF and Perturbation (DSCFP) and Perturbed DSCF (PDSCF) algorithms combine both methods. The analysis includes comparisons with several code lengths N and various number of decoding attempts Tmax. For N=1024 and the coding rate R= 1/2, the DSCF and the SCP algorithms with Tmax= 17 are bested by approximately 0.1 dB at block-error rate (BLER) of 0.001. At BLER = 10-6 and for Tmax= 64, the gain is of 0.375 dB and > 0.5 dB with respect to DSCF and SCP, respectively. At high signal-to-noise ratio, the average computational complexity of the proposed algorithms is virtually equivalent to that of SC.

KW - Decoding

KW - Encoding

KW - Polar codes

UR - https://www.scopus.com/pages/publications/105006429495

U2 - 10.1109/WCNC61545.2025.10978372

DO - 10.1109/WCNC61545.2025.10978372

M3 - Contribution to conference proceedings

AN - SCOPUS:105006429495

T3 - IEEE Wireless Communications and Networking Conference, WCNC

BT - 2025 IEEE Wireless Communications and Networking Conference, WCNC 2025

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 2025 IEEE Wireless Communications and Networking Conference, WCNC 2025

Y2 - 24 March 2025 through 27 March 2025

ER -