New constructions of abelian non-cyclic orbit codes based on parabolic subgroups and tensor products

Orbit codes, as special constant dimension subspace codes, have attracted much attention due to their applications for error correction in random network coding. They arise as orbits of a subspace of Fqn under the action of some subgroup of the finite general linear group GLn(q). The main contributi...

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Vydáno v:Finite fields and their applications Ročník 103; s. 102587
Hlavní autoři: Askary, Soleyman, Biranvand, Nader, Shirjian, Farrokh
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Inc 01.03.2025
Témata:
Abelian orbit code
Algebraic coding theory
Linear groups
Random linear network coding
Subspace code
Algebraic coding theory
Abelian orbit code
Subspace code
Linear groups
Random linear network coding
primary
ISSN:1071-5797
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Shrnutí:Orbit codes, as special constant dimension subspace codes, have attracted much attention due to their applications for error correction in random network coding. They arise as orbits of a subspace of Fqn under the action of some subgroup of the finite general linear group GLn(q). The main contribution of this paper is to propose new methods for constructing large non-cyclic orbit codes. First, using the subgroup structure of maximal subgroups of GLn(q), we propose a new construction of an abelian non-cyclic orbit codes of size qk with k≤n/2. The proposed code is shown to be a partial spread which in many cases is close to the known maximum-size codes. Next, considering a larger framework, we introduce the notion of tensor product operation for subspace codes and explicitly determine the parameters of such product codes. The parameters of the constructions presented in this paper improve the constructions already obtained in [6] and [7].
ISSN:1071-5797
DOI:10.1016/j.ffa.2025.102587