Adversarial Channels with O(1)-Bit Partial Feedback
Abstract
We consider point-to-point communication over -ary adversarial channels with partial noiseless feedback. In this setting, a sender Alice transmits symbols from a -ary alphabet over a noisy forward channel to a receiver Bob, while Bob sends feedback to Alice over a noiseless reverse channel. In the forward channel, an adversary can inject both symbol errors and erasures up to an error fraction and erasure fraction , respectively. In the reverse channel, Bob's feedback is partial such that he can send at most bits during the communication session. As a case study on minimal partial feedback, we initiate the study of the -bit feedback setting in which is in . As our main result, we provide a tight characterization of zero-error capacity under -bit feedback for all , and , which we prove this result via novel achievability and converse schemes inspired by recent studies of causal adversarial channels without feedback. Perhaps surprisingly, we show that -bits of feedback are sufficient to achieve the zero-error capacity of the -ary adversarial error channel with full feedback when the error fraction is sufficiently small.
Cite
@article{arxiv.2305.14541,
title = {Adversarial Channels with O(1)-Bit Partial Feedback},
author = {Eric Ruzomberka and Yongkyu Jang and David J. Love and H. Vincent Poor},
journal= {arXiv preprint arXiv:2305.14541},
year = {2023}
}