On squares of cyclic codes

Ignacio Cascudo

doi:10.1109/TIT.2018.2867873

On squares of cyclic codes

Ignacio Cascudo

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Abstract

The square C ^∗2 of a linear error correcting code C is the linear code spanned by the component-wise products of every pair of (non-necessarily distinct) words in C. Squares of codes have gained attention for several applications mainly in the area of cryptography, and typically in those applications, one is concerned about some of the parameters (dimension and minimum distance) of both C ^∗2 and C. In this paper, motivated mostly by the study of this problem in the case of linear codes defined over the binary field, squares of cyclic codes are considered. General results on the minimum distance of the squares of cyclic codes are obtained, and constructions of cyclic codes C with a relatively large dimension of C and minimum distance of the square C ^∗2 are discussed. In some cases, the constructions lead to codes C such that both C and C ^∗2 simultaneously have the largest possible minimum distances for their length and dimensions.

Original language	English
Article number	8451926
Journal	I E E E Transactions on Information Theory
Volume	65
Issue number	2
Pages (from-to)	1034-1047
Number of pages	14
ISSN	0018-9448
DOIs	https://doi.org/10.1109/TIT.2018.2867873
Publication status	Published - Feb 2019

Keywords

Binary codes
Complexity theory
Cryptography
Linear codes
Protocols
Reed-Solomon codes

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10.1109/TIT.2018.2867873

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title = "On squares of cyclic codes",

abstract = "The square C ∗2 of a linear error correcting code C is the linear code spanned by the component-wise products of every pair of (non-necessarily distinct) words in C. Squares of codes have gained attention for several applications mainly in the area of cryptography, and typically in those applications, one is concerned about some of the parameters (dimension and minimum distance) of both C ∗2 and C. In this paper, motivated mostly by the study of this problem in the case of linear codes defined over the binary field, squares of cyclic codes are considered. General results on the minimum distance of the squares of cyclic codes are obtained, and constructions of cyclic codes C with a relatively large dimension of C and minimum distance of the square C ∗2 are discussed. In some cases, the constructions lead to codes C such that both C and C ∗2 simultaneously have the largest possible minimum distances for their length and dimensions. ",

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AB - The square C ∗2 of a linear error correcting code C is the linear code spanned by the component-wise products of every pair of (non-necessarily distinct) words in C. Squares of codes have gained attention for several applications mainly in the area of cryptography, and typically in those applications, one is concerned about some of the parameters (dimension and minimum distance) of both C ∗2 and C. In this paper, motivated mostly by the study of this problem in the case of linear codes defined over the binary field, squares of cyclic codes are considered. General results on the minimum distance of the squares of cyclic codes are obtained, and constructions of cyclic codes C with a relatively large dimension of C and minimum distance of the square C ∗2 are discussed. In some cases, the constructions lead to codes C such that both C and C ∗2 simultaneously have the largest possible minimum distances for their length and dimensions.

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KW - Complexity theory

KW - Cryptography

KW - Linear codes

KW - Protocols

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On squares of cyclic codes

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