The growing need for reliable communication over untrusted networks has caused a renewed interest in adversarial channel models, which often behave much differently than traditional stochastic channel models. Of particular practical use is the assumption of a \textit{causal} or \textit{online} adversary who is limited to causal knowledge of the transmitted codeword. In this work, we consider stochastic-adversarial mixed noise models. In the set-up considered, a transmit node (Alice) attempts to communicate with a receive node (Bob) over a binary erasure channel (BEC) or binary symmetric channel (BSC) in the presence of an online adversary (Calvin) who can erase or flip up to a certain number of bits at the input of the channel. Calvin knows the encoding scheme and has causal access to Bob's reception through \textit{feedback snooping}. For erasures, we provide a complete capacity characterization with and without transmitter feedback. For bit-flips, we provide interesting converse and achievability bounds.
翻译:在不受信任的网络上,对可靠通信的需求日益增长,这引起了对对抗性信道模式的兴趣,这种模式的行为往往与传统的随机信道模式大不相同。 特别实际的用途是假设一个只有对传输代码词的因果关系知识的\ textit{causal} 或\ textit{ online} 对手。 在这项工作中, 我们考虑的是随机- 对抗性混合噪音模式。 在考虑的设置中, 一个传输节点( Alic) 试图与接收节点( Bob) 进行通信, 在一个二元淘汰频道( BEC) 或二元对称频道( BSC) 上进行通信。 在出现一个在线对立点( Calvin) 的情况下, 他可以抹去或翻翻转到频道输入的某些位数 。 Calvin 了解编码计划, 并通过\ textititit{ feedback backsnooping} 。 对于消音器来说, 我们提供完整的能力描述。 对于位翻, 我们提供有趣的反向和可置的束缚。
相关内容
微信扫码咨询专知VIP会员