保护单跳无线网络免受消息丢失

K. Efremenko, Gillat Kol, Dmitry Paramonov, Raghuvansh R. Saxena
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引用次数: 1

摘要

单跳无线网络(SHRN)是一种经过深入研究的无线信道通信抽象。在这个模型中,在每一轮中,n个参与方中的每一个都可能决定向所有其他参与方广播一条消息,这可能会导致冲突。我们考虑随机消息下降(即擦除)存在的SHRN模型,其中在每一轮中,每一方接收到的消息都以一些小的常数概率独立地被擦除(由⊥取代)。我们的主要结果是一个恒定速率的编码方案,允许一个人在(无噪声的)SHRN模型上运行协议,而不是带有擦除的SHRN模型。我们的方案将任何协议Π的长度在SHRN模型上最多为n的指数级转换为协议Π ',该协议对常数分数的擦除具有弹性,并且在Π的长度中具有线性长度。我们提到,对于协议Π是非自适应的特殊情况,即通信顺序是预先确定的,这种方案是已知的。然而,自适应被广泛使用,并且被认为极大地提高了无线信道的能力,这使得处理自适应协议Π的一般情况既重要又更具挑战性。事实上,据我们所知,我们的结果是第一个在任何多方模型中将自适应协议转换为噪声弹性协议的恒定速率方案。
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Protecting Single-Hop Radio Networks from Message Drops
Single-hop radio networks (SHRN) are a well studied abstraction of communication over a wireless channel. In this model, in every round, each of the n participating parties may decide to broadcast a message to all the others, potentially causing collisions. We consider the SHRN model in the presence of stochastic message drops (i.e., erasures ), where in every round, the message received by each party is erased (replaced by ⊥ ) with some small constant probability, independently. Our main result is a constant rate coding scheme , allowing one to run protocols designed to work over the (noiseless) SHRN model over the SHRN model with erasures. Our scheme converts any protocol Π of length at most exponential in n over the SHRN model to a protocol Π ′ that is resilient to constant fraction of erasures and has length linear in the length of Π. We mention that for the special case where the protocol Π is non-adaptive , i.e., the order of communication is fixed in advance, such a scheme was known. Nevertheless, adaptivity is widely used and is known to hugely boost the power of wireless channels, which makes handling the general case of adaptive protocols Π both important and more challenging. Indeed, to the best of our knowledge, our result is the first constant rate scheme that converts adaptive protocols to noise resilient ones in any multi-party model.
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