On the distance distributions of single-orbit cyclic subspace codes

Autor: Mahak, Bhaintwal, Maheshanand
Rok vydání: 2024
Předmět:
Druh dokumentu: Working Paper
Popis: {A cyclic subspace code is a union of the orbits of subspaces contained in it. In a recent paper, Gluesing-Luerssen et al. (Des. Codes Cryptogr. 89, 447-470, 2021) showed that the study of the distance distribution of a single orbit cyclic subspace code is equivalent to the study of its intersection distribution. In this paper we have proved that in the orbit of a subspace $U$ of $\mathbb{F}_{q^n}$ that has the stabilizer $\mathbb{F}_{q^t}^*(t \neq n)$, the number of codeword pairs $(U,\alpha U)$ such that $\dim(U\cap \alpha U)=i$ for any $i,~ 0\leq i < \dim(U)$, is a multiple of $q^t(q^t+1)$, if $\frac{n}{t}$ is an odd number. In the case of even $\frac{n}{t}$, if $U$ contains $\frac{q^{2tm}-1}{q^{2t}-1}~ (m\geq 0)$ distinct cyclic shifts of $\mathbb{F}_{q^{2t}}$, then the number of codeword pairs $(U,\alpha U)$ with intersection dimension $2tm$ is equal to $q^t+rq^t(q^t+1)$, for some non-negative integer $r$; and the number of codeword pairs $(U,\alpha U)$ with intersection dimension $i,~(i\neq 2tm)$ is a multiple of $q^t(q^t+1)$. Some examples have been given to illustrate the results presented in the paper.
Databáze: arXiv