The number of self-dual cyclic codes over finite fields

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-29 DOI:10.1007/s12190-024-02196-z

Qiang Zhang

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Abstract

In linear coding theory, self-dual cyclic codes are especially notable for their efficiency in both encoding and decoding processes. This research focuses on the enumeration of such codes over finite fields, denoted as \({\mathbb {F}}_q\), where \(q = 2^m\) and m is the field size. Traditionally, investigations in this area have faced significant constraints primarily due to two factors. The first is the length of the code, n, with a focus on excluding prime factors congruent to 1 modulo 8. The second limitation pertains to the binary case, specifically when \(m = 1\). To overcome these challenges, this study introduces the concept of the exact power character of 2, a novel approach that offers a significant methodological advancement. By reframing the existing numerical constraints in terms of three readily computable parameters, this approach effectively sidesteps the limitations previously existing in the field. This development not only broadens the scope of possible code lengths and field sizes but also enhances the potential for practical applications of self-dual cyclic codes in various areas of information theory and communications.

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有限域上自双循环码的数量

在线性编码理论中，自双循环码因其在编码和解码过程中的高效性而特别引人注目。这项研究的重点是枚举有限域上的此类编码，表示为 \({\mathbb {F}}_q\), 其中 \(q = 2^m\) 和 m 是域的大小。传统上，这一领域的研究面临着很大的限制，主要是由于两个因素。首先是代码的长度 n，重点是排除与 1 相等的 8 模质因数。第二个限制与二进制情况有关，特别是当 \(m = 1\) 时。为了克服这些挑战，本研究引入了 2 的精确幂次的概念，这是一种新颖的方法，在方法论上有重大进步。通过用三个易于计算的参数重构现有的数值约束，这种方法有效地避免了该领域以前存在的限制。这一发展不仅拓宽了可能的码长和码场大小范围，而且增强了自双循环码在信息论和通信各领域的实际应用潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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