Sufficiently Myopic Adversaries are Blind

Abstract

In this work we consider a communication problem in which a sender, Alice, wishes to communicate with a receiver, Bob, over a channel controlled by an adversarial jammer, James, who is myopic. Roughly speaking, for blocklength n, the codeword Xn transmitted by Alice is corrupted by James who must base his adversarial decisions (of which locations of Xn to corrupt and how to corrupt them) not on the codeword Xn but on Zn, an image of Xn through a noisy memoryless channel. More specifically, our communication model may be described by two channels. A memoryless channel p(z|x) from Alice to James, and an Arbitrarily Varying Channel from Alice to Bob, p(y|x,s) governed by a state Xn determined by James. In standard adversarial channels the states Sn may depend on the codeword Xn, but in our setting Sn depends only on James's view Zn. The myopic channel captures a broad range of channels and bridges between the standard models of memoryless and adversarial (zero-error) channels. In this work we present upper and lower bounds on the capacity of myopic channels. For a number of special cases of interest we show that our bounds are tight. We extend our results to the setting of secure communication in which we require that the transmitted message remain secret from James. For example, we show that if (i) James may flip at most a p fraction of the bits communicated between Alice and Bob, and (ii) James views Xn through a binary symmetric channel with parameter q, then once James is "sufficiently myopic" (in this case, when q>p), then the optimal communication rate is that of an adversary who is "blind" (that is, an adversary that does not see Xn at all), which is 1-H(p) for standard communication, and H(q)-H(p) for secure communication. A similar phenomenon exists for our general model of communication.