Local-Encoding-Preserving Secure Network Coding for Fixed Dimension

2019 IEEE International Symposium on Information Theory (ISIT) Pub Date : 2019-07-07 DOI:10.1109/ISIT.2019.8849331

Xuan Guang, R. Yeung

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Abstract

In the paradigm of network coding, information-theoretic security is considered in the presence of wiretappers, who can access one arbitrary edge subset up to a certain size, referred to as the security level. Secure network coding is applied to prevent the leakage of the source information to the wiretappers. In this paper, we consider the problem of secure network coding for flexible pairs of information rate and security level with any fixed dimension (equal to the sum of rate and security level). We present a novel approach for designing a secure linear network code (SLNC) such that the same SLNC can be applied for all the rate and security-level pairs with the fixed dimension. We further develop a polynomial-time algorithm for efficient implementation and prove that there is no penalty on the required field size for the existence of SLNCs in terms of the best known lower bound by Guang and Yeung. Finally, by applying our approach as a crucial building block, we can construct a family of SLNCs that not only can be applied to all possible pairs of rate and security level but also share a common local encoding kernel at each intermediate node in the network.

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固定维的保局部编码安全网络编码

在网络编码范例中，在存在窃听者的情况下考虑信息理论安全性，窃听者可以访问任意一个边缘子集，直到一定大小，称为安全级别。采用安全网络编码，防止源信息泄露给窃听者。本文研究了任意固定维(等于速率和安全级别之和)的信息速率和安全级别的柔性对的安全网络编码问题。本文提出了一种设计安全线性网络码(SLNC)的新方法，使得相同的SLNC可以应用于所有具有固定维数的速率和安全级别对。我们进一步开发了一个多项式时间算法来有效地实现，并证明了根据广和杨最著名的下界，slnc的存在对所需的域大小没有惩罚。最后，通过将我们的方法作为一个关键的构建块，我们可以构建一个slnc族，它不仅可以应用于所有可能的速率和安全级别对，而且还可以在网络中的每个中间节点上共享一个公共的本地编码内核。

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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2019 IEEE International Symposium on Information Theory (ISIT)

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