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Autores principales: Bezner, Paul, Cil, Erdem Eray, Clausius, Jannis, Griebel, Oliver, Janz, Tim, Johannsen, Lucas, Kestel, Claus, Krieg, Felix, Li, Haizheng, Mandelbaum, Jonathan, Miao, Sisi, Rübenacke, Marvin, Tandler, Daniel, Zunker, Andreas, Schmalen, Laurent, Wehn, Norbert, Brink, Stephan ten
Formato: Preprint
Publicado: 2026
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Acceso en línea:https://arxiv.org/abs/2603.23123
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author Bezner, Paul
Cil, Erdem Eray
Clausius, Jannis
Griebel, Oliver
Janz, Tim
Johannsen, Lucas
Kestel, Claus
Krieg, Felix
Li, Haizheng
Mandelbaum, Jonathan
Miao, Sisi
Rübenacke, Marvin
Tandler, Daniel
Zunker, Andreas
Schmalen, Laurent
Wehn, Norbert
Brink, Stephan ten
author_facet Bezner, Paul
Cil, Erdem Eray
Clausius, Jannis
Griebel, Oliver
Janz, Tim
Johannsen, Lucas
Kestel, Claus
Krieg, Felix
Li, Haizheng
Mandelbaum, Jonathan
Miao, Sisi
Rübenacke, Marvin
Tandler, Daniel
Zunker, Andreas
Schmalen, Laurent
Wehn, Norbert
Brink, Stephan ten
contents The growing demand for higher data rates necessitates continuous innovations in wireless communication systems, particularly with the emergence of 6G. Channel coding plays a crucial role in this evolution. In 5G systems, rate-adaptive raptor-like quasi-cyclic irregular low-density parity-check codes are used for the data link, while polar codes with successive cancellation list decoding handle short messages on the synchronization channel. However, to meet the stringent requirements of future 6G systems, a versatile and unified coding scheme should be developed - one that offers competitive error-correcting performance alongside low complexity encoding and decoding schemes that enable energy-efficient hardware implementations. This white paper outlines the vision for such a unified coding scheme. We explore various 6G communication scenarios that pose new challenges to channel coding and provide a first analysis of potential solutions.
format Preprint
id arxiv_https___arxiv_org_abs_2603_23123
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Towards a Unified Coding Scheme for 6G
Bezner, Paul
Cil, Erdem Eray
Clausius, Jannis
Griebel, Oliver
Janz, Tim
Johannsen, Lucas
Kestel, Claus
Krieg, Felix
Li, Haizheng
Mandelbaum, Jonathan
Miao, Sisi
Rübenacke, Marvin
Tandler, Daniel
Zunker, Andreas
Schmalen, Laurent
Wehn, Norbert
Brink, Stephan ten
Information Theory
Signal Processing
The growing demand for higher data rates necessitates continuous innovations in wireless communication systems, particularly with the emergence of 6G. Channel coding plays a crucial role in this evolution. In 5G systems, rate-adaptive raptor-like quasi-cyclic irregular low-density parity-check codes are used for the data link, while polar codes with successive cancellation list decoding handle short messages on the synchronization channel. However, to meet the stringent requirements of future 6G systems, a versatile and unified coding scheme should be developed - one that offers competitive error-correcting performance alongside low complexity encoding and decoding schemes that enable energy-efficient hardware implementations. This white paper outlines the vision for such a unified coding scheme. We explore various 6G communication scenarios that pose new challenges to channel coding and provide a first analysis of potential solutions.
title Towards a Unified Coding Scheme for 6G
topic Information Theory
Signal Processing
url https://arxiv.org/abs/2603.23123