# Cyclicity of Binary Group Codes

**Authors:** Beatriz García García, Consuelo Martínez López, Ignacio F. Rúa

PMC · DOI: 10.3390/e28030289 · 2026-03-04

## TL;DR

This paper explores binary group codes and shows that some cannot be represented as cyclic codes, expanding the understanding of code structures.

## Contribution

The paper introduces ω|ω¯ codes as self-dual group codes and proves their non-equivalence to cyclic codes under specific conditions.

## Key findings

- ω|ω¯ codes are self-dual group codes over the abelian group C2×Ck.
- For even k>2, these codes are not permutationally equivalent to cyclic codes.
- Computational results show non-cyclic group codes exist beyond cyclic group algebras.

## Abstract

In this paper, we study the cyclicity of binary group codes, identifying them as ideals in a group algebra. We focus on the construction of ω|ω¯ codes, proving that they are self-dual group codes over the abelian group C2×Ck. We demonstrate that for even integers k>2, if the polynomial xk−1 splits into self-reciprocal irreducible factors, these codes are not permutationally equivalent to any cyclic code. Additionally, we present computational results for binary group codes of length n<24 using the MAGMA software (V2.29-4). These results confirm that while all cyclic codes in this range are equivalent to abelian group codes, there exist non-cyclic group codes that cannot be realized as ideals in a cyclic group algebra, highlighting the strictly larger scope of the class of group codes.

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Source: https://tomesphere.com/paper/PMC13025717