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引用次数: 4
摘要
这篇论文有资格获得Jack Keil Wolf ISIT学生论文奖。本文研究了协作干扰存在下的隐蔽通信。秘密通信是指攻击者无法从输入的所谓无害符号中区分数据传输。我们考虑三个相关问题:(1)与发射机没有直接通信或协调的干扰机,(2)窃取发射机输出的干扰机,以及(3)能够通过也与合法接收器共享的密钥与发射机协调的干扰机。对于每个模型,我们推导出在某些特殊情况下容量区域的内界和外界是紧的。与文献中先前的结果不同,我们模型中的干扰器不具有无限的局部随机性。事实上,揭示隐蔽通信速率、局部随机性和秘密密钥速率之间的基本相互作用,是本研究的区别和贡献之一。在一些特定通道的背景下,我们计算可实现的隐蔽率来阐明我们的结果。
Covert Communication in the Presence of an Uninformed, Informed, and Coordinated Jammer
This paper is eligible for the Jack Keil Wolf ISIT Student Paper Award. This paper investigates covert communication in the presence of a cooperative jammer. Covert communication refers to the inability of an adversary to distinguish data transmission from a so-called innocent symbol at the input. We consider three related problems: (1) a jammer without direct communication or coordination with the transmitter, (2) a jammer that cribs the output of the transmitter, and (3) a jammer that is able to coordinate with the transmitter via a secret key that is also shared with the legitimate receiver. For each model, we derive inner and outer bounds on the capacity region that are tight in some special cases. Unlike prior results in the literature, the jammer in our model does not have access to unlimited local randomness. In fact, uncovering the fundamental interplay between the covert communication rate, local randomness, and secret key rate, is one of the distinctions and contributions of the present work. In the context of a few specific channels, we calculate achievable covert rates to illuminate our results.
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