{"title":"一元权$ \\mathbb{Z}_2\\mathbb{Z}_4[u] $加性码及其构造","authors":"Jie Geng, Huazhang Wu, P. Solé","doi":"10.3934/amc.2021046","DOIUrl":null,"url":null,"abstract":"<p style='text-indent:20px;'>This paper mainly study <inline-formula><tex-math id=\"M2\">\\begin{document}$ \\mathbb{Z}_{2}\\mathbb{Z}_{4}[u] $\\end{document}</tex-math></inline-formula>-additive codes. A Gray map from <inline-formula><tex-math id=\"M3\">\\begin{document}$ \\mathbb{Z}_{2}^{\\alpha}\\times\\mathbb{Z}_{4}^{\\beta}[u] $\\end{document}</tex-math></inline-formula> to <inline-formula><tex-math id=\"M4\">\\begin{document}$ \\mathbb{Z}_{4}^{\\alpha+2\\beta} $\\end{document}</tex-math></inline-formula> is defined, and we prove that is a weight preserving and distance preserving map. A MacWilliams-type identity between the Lee weight enumerator of a <inline-formula><tex-math id=\"M5\">\\begin{document}$ \\mathbb{Z}_{2}\\mathbb{Z}_{4}[u] $\\end{document}</tex-math></inline-formula>-additive code and its dual is proved. Some properties of one-weight <inline-formula><tex-math id=\"M6\">\\begin{document}$ \\mathbb{Z}_{2}\\mathbb{Z}_{4}[u] $\\end{document}</tex-math></inline-formula>-additive codes and two-weight projective <inline-formula><tex-math id=\"M7\">\\begin{document}$ \\mathbb{Z}_{2}\\mathbb{Z}_{4}[u] $\\end{document}</tex-math></inline-formula>-additive codes are discussed. As main results, some construction methods for one-weight and two-weight <inline-formula><tex-math id=\"M8\">\\begin{document}$ \\mathbb{Z}_{2}\\mathbb{Z}_{4}[u] $\\end{document}</tex-math></inline-formula>-additive codes are studied, meanwhile several examples are presented to illustrate the methods.</p>","PeriodicalId":50859,"journal":{"name":"Advances in Mathematics of Communications","volume":null,"pages":null},"PeriodicalIF":0.7000,"publicationDate":"2023-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"On one-lee weight and two-lee weight $ \\\\mathbb{Z}_2\\\\mathbb{Z}_4[u] $ additive codes and their constructions\",\"authors\":\"Jie Geng, Huazhang Wu, P. Solé\",\"doi\":\"10.3934/amc.2021046\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p style='text-indent:20px;'>This paper mainly study <inline-formula><tex-math id=\\\"M2\\\">\\\\begin{document}$ \\\\mathbb{Z}_{2}\\\\mathbb{Z}_{4}[u] $\\\\end{document}</tex-math></inline-formula>-additive codes. A Gray map from <inline-formula><tex-math id=\\\"M3\\\">\\\\begin{document}$ \\\\mathbb{Z}_{2}^{\\\\alpha}\\\\times\\\\mathbb{Z}_{4}^{\\\\beta}[u] $\\\\end{document}</tex-math></inline-formula> to <inline-formula><tex-math id=\\\"M4\\\">\\\\begin{document}$ \\\\mathbb{Z}_{4}^{\\\\alpha+2\\\\beta} $\\\\end{document}</tex-math></inline-formula> is defined, and we prove that is a weight preserving and distance preserving map. A MacWilliams-type identity between the Lee weight enumerator of a <inline-formula><tex-math id=\\\"M5\\\">\\\\begin{document}$ \\\\mathbb{Z}_{2}\\\\mathbb{Z}_{4}[u] $\\\\end{document}</tex-math></inline-formula>-additive code and its dual is proved. Some properties of one-weight <inline-formula><tex-math id=\\\"M6\\\">\\\\begin{document}$ \\\\mathbb{Z}_{2}\\\\mathbb{Z}_{4}[u] $\\\\end{document}</tex-math></inline-formula>-additive codes and two-weight projective <inline-formula><tex-math id=\\\"M7\\\">\\\\begin{document}$ \\\\mathbb{Z}_{2}\\\\mathbb{Z}_{4}[u] $\\\\end{document}</tex-math></inline-formula>-additive codes are discussed. 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引用次数: 0
摘要
This paper mainly study \begin{document}$ \mathbb{Z}_{2}\mathbb{Z}_{4}[u] $\end{document}-additive codes. A Gray map from \begin{document}$ \mathbb{Z}_{2}^{\alpha}\times\mathbb{Z}_{4}^{\beta}[u] $\end{document} to \begin{document}$ \mathbb{Z}_{4}^{\alpha+2\beta} $\end{document} is defined, and we prove that is a weight preserving and distance preserving map. A MacWilliams-type identity between the Lee weight enumerator of a \begin{document}$ \mathbb{Z}_{2}\mathbb{Z}_{4}[u] $\end{document}-additive code and its dual is proved. Some properties of one-weight \begin{document}$ \mathbb{Z}_{2}\mathbb{Z}_{4}[u] $\end{document}-additive codes and two-weight projective \begin{document}$ \mathbb{Z}_{2}\mathbb{Z}_{4}[u] $\end{document}-additive codes are discussed. As main results, some construction methods for one-weight and two-weight \begin{document}$ \mathbb{Z}_{2}\mathbb{Z}_{4}[u] $\end{document}-additive codes are studied, meanwhile several examples are presented to illustrate the methods.
On one-lee weight and two-lee weight $ \mathbb{Z}_2\mathbb{Z}_4[u] $ additive codes and their constructions
This paper mainly study \begin{document}$ \mathbb{Z}_{2}\mathbb{Z}_{4}[u] $\end{document}-additive codes. A Gray map from \begin{document}$ \mathbb{Z}_{2}^{\alpha}\times\mathbb{Z}_{4}^{\beta}[u] $\end{document} to \begin{document}$ \mathbb{Z}_{4}^{\alpha+2\beta} $\end{document} is defined, and we prove that is a weight preserving and distance preserving map. A MacWilliams-type identity between the Lee weight enumerator of a \begin{document}$ \mathbb{Z}_{2}\mathbb{Z}_{4}[u] $\end{document}-additive code and its dual is proved. Some properties of one-weight \begin{document}$ \mathbb{Z}_{2}\mathbb{Z}_{4}[u] $\end{document}-additive codes and two-weight projective \begin{document}$ \mathbb{Z}_{2}\mathbb{Z}_{4}[u] $\end{document}-additive codes are discussed. As main results, some construction methods for one-weight and two-weight \begin{document}$ \mathbb{Z}_{2}\mathbb{Z}_{4}[u] $\end{document}-additive codes are studied, meanwhile several examples are presented to illustrate the methods.
期刊介绍:
Advances in Mathematics of Communications (AMC) publishes original research papers of the highest quality in all areas of mathematics and computer science which are relevant to applications in communications technology. For this reason, submissions from many areas of mathematics are invited, provided these show a high level of originality, new techniques, an innovative approach, novel methodologies, or otherwise a high level of depth and sophistication. Any work that does not conform to these standards will be rejected.
Areas covered include coding theory, cryptology, combinatorics, finite geometry, algebra and number theory, but are not restricted to these. This journal also aims to cover the algorithmic and computational aspects of these disciplines. Hence, all mathematics and computer science contributions of appropriate depth and relevance to the above mentioned applications in communications technology are welcome.
More detailed indication of the journal''s scope is given by the subject interests of the members of the board of editors.
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