在密码学中，无线电表示标记路径

2022 IEEE 4th PhD Colloquium on Emerging Domain Innovation and Technology for Society (PhD EDITS) Pub Date : 2022-11-04 DOI:10.1109/PhDEDITS56681.2022.9955298

M. Saraswathi, K. Meera

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引用次数: 0

摘要

图的着色或标记是一个np完全问题。本文研究的标记技术是无线电平均标记。我们将图的无线电平均标记与使用矩阵的加密/解密过程相结合。如果矩阵或它的逆矩阵是已知的，入侵者可以很容易地破解秘密信息。利用图的唯一无线电平均数来构造用于加密的密钥矩阵。这个矩阵的逆就是用于解密的矩阵。在给定阶数的所有图中，与路径图同构的图具有最大的直径。由于与任何给定图的无线电平均标记相关的数学约束仅取决于图的阶数和直径，因此随着阶数的增加，推导路径的无线电平均数量是困难的。因此，我们选择路径图来构造用于加密的密钥矩阵。

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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Radio mean labeled paths in Cryptography

Graph coloring or labeling is an NP-complete problem. The labeling technique in the scope of this paper is radio mean labeling. We integrate the radio mean labeling of graphs with the encryption/decryption process using matrices. An intruder can easily crack the secret message if the matrix or its inverse is known. The unique radio mean number of a graph is used to construct the key matrix for encryption. The inverse of this matrix is then the matrix for decryption. Out of all graphs of a given order, graphs isomorphic to path graphs have the maximum diameter. Since the mathematical constraint associated with the radio mean labeling of any given graph depends solely on the graph’s order and diameter, deriving the radio mean number of paths is difficult as order increases. Hence, we choose path graphs for constructing the key matrix for encryption.

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2022 IEEE 4th PhD Colloquium on Emerging Domain Innovation and Technology for Society (PhD EDITS)

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