Bibliographic Information: Guan, C., Lv, J., Luo, G., & Ma, Z. (2024). Combinatorial Constructions of Optimal Quaternary Additive Codes. arXiv preprint arXiv:2407.04193v2.
Research Objective: This paper aims to develop efficient combinatorial methods for constructing optimal quaternary additive codes with non-integer dimensions, a challenge that has limited the determination of optimal codes for higher dimensions.
Methodology: The authors introduce three key methods:
Key Findings: The paper presents ten classes of optimal quaternary non-integer dimensional additive codes using the proposed methods. Notably, the authors determine the optimal additive [n, 3.5, n−t]4 codes for all t with variable n, except for t = 6, 7, 12, significantly advancing the understanding of optimal codes in this dimension.
Main Conclusions: The combinatorial methods presented provide efficient tools for constructing optimal quaternary additive codes with non-integer dimensions. The specific constructions and their weight distribution analysis contribute valuable insights for designing efficient coding schemes in various applications.
Significance: This research significantly contributes to coding theory by providing practical methods for constructing optimal additive codes, which have broad applications in quantum information processing, communication systems, and data storage.
Limitations and Future Research: While the paper addresses the construction of optimal additive codes for a range of parameters, it acknowledges the limitations in determining optimal codes for all possible parameters. Future research could explore further refinements of the proposed methods and investigate their applicability to constructing optimal codes with other dimensions and over different fields.
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by Chaofeng Gua... kl. arxiv.org 11-12-2024
https://arxiv.org/pdf/2407.04193.pdfDybere Forespørgsler