Type-II polyadic constacyclic codes over finite fields

Polyadic constacyclic codes over finite fields have been of interest due to their nice algebraic structures, good parameters, and wide applications. Recently, the study of Type-I m-adic constacyclic codes over finite fields has been established. In this paper, a family of Type-II m-adic constacycli...

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Main Authors:	Jitman, Somphong, Ling, San, Tharnnukhroh, Jareena
Other Authors:	School of Physical and Mathematical Sciences
Format:	Article
Language:	English
Published:	2022
Subjects:	Science::Mathematics::Applied mathematics::Information theory Science::Mathematics::Discrete mathematics Type-II Polyadic Constacyclic Codes Cyclotomic Cosets
Online Access:	https://hdl.handle.net/10356/156043
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Institution:	Nanyang Technological University
Language:	English

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spelling	sg-ntu-dr.10356-1560432022-04-06T00:25:22Z Type-II polyadic constacyclic codes over finite fields Jitman, Somphong Ling, San Tharnnukhroh, Jareena School of Physical and Mathematical Sciences Science::Mathematics::Applied mathematics::Information theory Science::Mathematics::Discrete mathematics Type-II Polyadic Constacyclic Codes Cyclotomic Cosets Polyadic constacyclic codes over finite fields have been of interest due to their nice algebraic structures, good parameters, and wide applications. Recently, the study of Type-I m-adic constacyclic codes over finite fields has been established. In this paper, a family of Type-II m-adic constacyclic codes is investigated. The existence of such codes is determined using the length of orbits in a suitable group action. A necessary condition and a sufficient condition for a positive integer s to be a multiplier of a Type-II m-adic constacyclic code are determined. Subsequently, for a given positive integer m, a necessary condition and a sufficient condition for the existence of Type-II m-adic constacyclic codes are derived. In many cases, these conditions become both necessary and sufficient. For the other cases, determining necessary and sufficient conditions is equivalent to the discrete logarithm problem which is considered to be computationally intractable. Some special cases are investigated together with examples of Type-II polyadic constacyclic codes with good parameters. Nanyang Technological University The research of S. Ling is partially supported by Nanyang Technological University Research Grant No. 04INS000047C230GRT01. 2022-04-06T00:25:22Z 2022-04-06T00:25:22Z 2022 Journal Article Jitman, S., Ling, S. & Tharnnukhroh, J. (2022). Type-II polyadic constacyclic codes over finite fields. Discrete Mathematics, Algorithms and Applications. https://dx.doi.org/10.1142/S1793830922500720 1793-8309 https://hdl.handle.net/10356/156043 10.1142/S1793830922500720 en 04INS000047C230GRT01 Discrete Mathematics, Algorithms and Applications © 2022 World Scientific Publishing Company. All rights reserved.
institution	Nanyang Technological University
building	NTU Library
continent	Asia
country	Singapore Singapore
content_provider	NTU Library
collection	DR-NTU
language	English
topic	Science::Mathematics::Applied mathematics::Information theory Science::Mathematics::Discrete mathematics Type-II Polyadic Constacyclic Codes Cyclotomic Cosets
spellingShingle	Science::Mathematics::Applied mathematics::Information theory Science::Mathematics::Discrete mathematics Type-II Polyadic Constacyclic Codes Cyclotomic Cosets Jitman, Somphong Ling, San Tharnnukhroh, Jareena Type-II polyadic constacyclic codes over finite fields
description	Polyadic constacyclic codes over finite fields have been of interest due to their nice algebraic structures, good parameters, and wide applications. Recently, the study of Type-I m-adic constacyclic codes over finite fields has been established. In this paper, a family of Type-II m-adic constacyclic codes is investigated. The existence of such codes is determined using the length of orbits in a suitable group action. A necessary condition and a sufficient condition for a positive integer s to be a multiplier of a Type-II m-adic constacyclic code are determined. Subsequently, for a given positive integer m, a necessary condition and a sufficient condition for the existence of Type-II m-adic constacyclic codes are derived. In many cases, these conditions become both necessary and sufficient. For the other cases, determining necessary and sufficient conditions is equivalent to the discrete logarithm problem which is considered to be computationally intractable. Some special cases are investigated together with examples of Type-II polyadic constacyclic codes with good parameters.
author2	School of Physical and Mathematical Sciences
author_facet	School of Physical and Mathematical Sciences Jitman, Somphong Ling, San Tharnnukhroh, Jareena
format	Article
author	Jitman, Somphong Ling, San Tharnnukhroh, Jareena
author_sort	Jitman, Somphong
title	Type-II polyadic constacyclic codes over finite fields
title_short	Type-II polyadic constacyclic codes over finite fields
title_full	Type-II polyadic constacyclic codes over finite fields
title_fullStr	Type-II polyadic constacyclic codes over finite fields
title_full_unstemmed	Type-II polyadic constacyclic codes over finite fields
title_sort	type-ii polyadic constacyclic codes over finite fields
publishDate	2022
url	https://hdl.handle.net/10356/156043
_version_	1729789482268360704

Type-II polyadic constacyclic codes over finite fields

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