Multi-Terminal Communications with Confidential Messages

2007 Information Theory and Applications Workshop Pub Date : 2007-10-22 DOI:10.1109/ITA.2007.4357605

Ruoheng Liu, I. Marić, P. Spasojevic, R. Yates

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引用次数: 4

Abstract

The authors study information-theoretic security for discrete memoryless interference and broadcast channels with independent confidential messages sent to two receivers. Confidential messages are transmitted to their respective receivers with perfect secrecy. That is, each receiver is kept in total ignorance with respect to the message intended for the other receiver. The secrecy level is measured by the equivocation rate at the eavesdropping receiver. This approach was first introduced by Wyner in 1975 for the wiretap channel model. In this paper, we investigate the secrecy capacity region bounds for these two communication systems. The derived outer bounds have an identical mutual information expression that applies to the broadcast channel when one sender jointly encodes both messages and to the interference channel when two senders offer independent inputs to the channel. We consider a switch channel model which is a special case of the interference channel and show that the derived outer and inner bounds meet in this case. Finally, we focus on Gaussian interference channels with confidential messages and describe several transmission schemes and their achievable rate regions under the prefect secrecy requirement.

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包含机密信息的多终端通信

作者研究了离散无记忆干扰和广播信道的信息论安全问题，并将独立的机密信息发送给两个接收方。机密信息以绝对保密的方式传送给各自的接收者。也就是说，每个接收者都完全不知道传递给另一个接收者的信息。保密级别由窃听方的含糊其辞率来衡量。这种方法最初是由Wyner在1975年为窃听信道模型引入的。本文研究了这两种通信系统的保密容量区域边界。派生的外部边界具有相同的互信息表达式，当一个发送方联合对两个消息进行编码时，该互信息表达式适用于广播信道，当两个发送方向信道提供独立输入时，该互信息表达式适用于干扰信道。我们考虑了一种开关信道模型，它是干涉信道的一种特殊情况，并证明了在这种情况下导出的外边界和内边界满足。最后，我们重点讨论了具有机密信息的高斯干涉信道，并描述了几种传输方案及其在绝对保密要求下的可实现速率区域。

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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2007 Information Theory and Applications Workshop

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