泊松包信道上的秘密通信

Ramin Soltani, D. Goeckel, D. Towsley, A. Houmansadr
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引用次数: 19

摘要

考虑一个信道,授权发送者Jack按照泊松过程以每秒λ包的速率向授权接收者Steve发送数据包,持续一段时间为t。假设隐蔽发送者Alice希望在同一信道上向隐蔽接收者Bob发送信息,而不被警惕的对手Willie发现。我们考虑两种情况。在第一个场景中,我们假设狱长Willie不能查看包的内容,而只能观察包的计时,而Alice必须通过将自己的包插入信道来发送信息。我们证明,Alice可以秘密传输给Bob的数据包数量是Jack传输给Steve的数据包数量的平方根的数量级;相反,如果Alice传送的信息超过这个数,她就很有可能被Willie发现。在第二个场景中,我们假设Willie可以查看数据包内容,但是Alice可以通过改变从Jack到Steve的数据包的时间,通过M/M/1队列与Bob通信。首先,Alice构建一个码本,其中每个码字由一系列数据包计时组成,用于传递与该码字相关的信息。然而,为了成功地使用这个码本,Alice必须总是在适当的时间发送一个数据包。因此,利用我们从第一个场景得到的结果,我们提出了一种构造,其中Alice暗中减慢数据包流,以便缓冲数据包,以便在随后的码字传输阶段使用。利用该方法,Alice可以在服务速率μ > e·λ的M/M/1队列上,在T时间段内向Bob隐蔽可靠地传输O(λT)个隐蔽比特。
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Covert communications on Poisson packet channels
Consider a channel where authorized transmitter Jack sends packets to authorized receiver Steve according to a Poisson process with rate λ packets per second for a time period T. Suppose that covert transmitter Alice wishes to communicate information to covert receiver Bob on the same channel without being detected by a watchful adversary Willie. We consider two scenarios. In the first scenario, we assume that warden Willie cannot look at packet contents but rather can only observe packet timings, and Alice must send information by inserting her own packets into the channel. We show that the number of packets that Alice can covertly transmit to Bob is on the order of the square root of the number of packets that Jack transmits to Steve; conversely, if Alice transmits more than that, she will be detected by Willie with high probability. In the second scenario, we assume that Willie can look at packet contents but that Alice can communicate across an M/M/1 queue to Bob by altering the timings of the packets going from Jack to Steve. First, Alice builds a codebook, with each codeword consisting of a sequence of packet timings to be employed for conveying the information associated with that codeword. However, to successfully employ this codebook, Alice must always have a packet to send at the appropriate time. Hence, leveraging our result from the first scenario, we propose a construction where Alice covertly slows down the packet stream so as to buffer packets to use during a succeeding codeword transmission phase. Using this approach, Alice can covertly and reliably transmit O(λT) covert bits to Bob in time period T over an M/M/1 queue with service rate μ > e · λ.
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