arXiv:1212.1056 Abstract | arXiv Analytics

arXiv:1212.1056 [math.CO]Abstract References Reviews Resources

Geometric representations of binary codes embeddable in three dimensions

Published 2012-12-05Version 1

We say that a binary linear code C has a geometric representation if there exists a two dimensional simplicial complex D such that C is a punctured code of the kernel ker D of the incidence matrix of D and dim C = dim ker D. We show that every binary linear code has a geometric representation that can be embedded into R^4. Moreover, we show that a binary linear code C has a geometric representation in R^3 if and only if there exists a graph G such that C equals the cut space of G. This is a polynomially testable property and hence we can conclude that there is a polynomial algorithm that decides the minimal dimension of a geometric representation of a binary linear code.

Comments: 21 pages, 19 figures

Categories: math.CO

Subjects: 05C65, 94B05, 90C27, 55U10

Keywords: geometric representation, binary linear code, binary codes embeddable, dimensional simplicial complex, minimal dimension

Related articles: Most relevant | Search more

arXiv:1012.4134 [math.CO] (Published 2010-12-19, updated 2011-08-03)

On triply even binary codes

Koichi Betsumiya, Akihiro Munemasa

arXiv:1602.05446 [math.CO] (Published 2016-02-17)

Classification of quasi-symmetric 2-(64,24,46) designs of Blokhuis-Haemers type

Dean Crnkovic, Bernardo Rodrigues, Sanja Rukavina, Vladimir D. Tonchev

arXiv:1805.10019 [math.CO] (Published 2018-05-25)