This work considers mitigation of information leakage between communication and sensing operations in joint communication and sensing systems. Specifically, a discrete memoryless state-dependent broadcast channel model is studied in which (i) the presence of feedback enables a transmitter to simultaneously achieve reliable communication and channel state estimation; (ii) one of the receivers is treated as an eavesdropper whose state should be estimated but which should remain oblivious to a part of the transmitted information. The model abstracts the challenges behind security for joint communication and sensing if one views the channel state as a characteristic of the receiver, e.g., its location. For independent identically distributed (i.i.d.) states, perfect output feedback, and when part of the transmitted message should be kept secret, a partial characterization of the secrecy-distortion region is developed. The characterization is exact when the broadcast channel is either physically-degraded or reversely-physically-degraded. The characterization is also extended to the situation in which the entire transmitted message should be kept secret. The benefits of a joint approach compared to separation-based secure communication and state-sensing methods are illustrated with a binary joint communication and sensing model.
翻译:这项工作考虑在联合通信和遥感系统中的通信和遥感操作之间减少信息泄漏的问题。具体地说,研究了一个离散的、没有记忆的、依赖国家的广播频道模型,其中(一) 反馈的存在使发报机能够同时实现可靠的通信和频道状态估计;(二) 接收器之一被视为一个窃听器,其状态应当估计,但应当不为所传送信息的一部分所注意到。模型总结了如果一个人将频道状态视为接收器的特征,例如其位置,则联合通信和遥感的安全性便会遇到的挑战。对于独立分布相同的(一.d.) 表示、完美的产出反馈,以及当所传送信息的一部分应当保密时,将保密-扭曲区域的部分定性为窃听器,当广播频道是物理失分化或反向物理失分级时,这种定性是准确的。描述还扩大到整个传输电文应当保密的情况。与分离的安全通信和国家遥感方法相比,联合方法的好处与二手式联合通信和感测。