Arithmetic completely regular codes

Jacobus Koolen; Woo Sun Lee; William Martin; Hajime Tanaka

doi:10.46298/dmtcs.2150

Discrete Mathematics & Theoretical Computer Science (Feb 2016)

Arithmetic completely regular codes

Jacobus Koolen,
Woo Sun Lee,
William Martin,
Hajime Tanaka

Affiliations

Jacobus Koolen: Wu Wen-Tsun Key Laboratory of Mathematics, Chinese Academy of Sciences
Woo Sun Lee: Department of Mathematics, POSTECH
William Martin: Department of Mathematics [Worcester]
Hajime Tanaka: Research Center for Pure and Applied Mathematics, GSIS, Tohoku University

DOI: https://doi.org/10.46298/dmtcs.2150
Journal volume & issue: Vol. Vol. 17 no. 3, no. PRIMA 2013

Abstract

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In this paper, we explore completely regular codes in the Hamming graphs and related graphs. Experimental evidence suggests that many completely regular codes have the property that the eigenvalues of the code are in arithmetic progression. In order to better understand these "arithmetic completely regular codes", we focus on cartesian products of completely regular codes and products of their corresponding coset graphs in the additive case. Employing earlier results, we are then able to prove a theorem which nearly classifies these codes in the case where the graph admits a completely regular partition into such codes (e.g, the cosets of some additive completely regular code). Connections to the theory of distance-regular graphs are explored and several open questions are posed.

Published in Discrete Mathematics & Theoretical Computer Science

ISSN: 1462-7264 (Print); 1365-8050 (Online)
Publisher: Discrete Mathematics & Theoretical Computer Science
Country of publisher: France
LCC subjects: Science: Mathematics
Website: https://dmtcs.episciences.org/

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