Limiting Byzantine Influence in Multihop Asynchronous Networks

2012 IEEE 32nd International Conference on Distributed Computing Systems Pub Date : 2012-01-27 DOI:10.1109/ICDCS.2012.15

Alexandre Maurer, S. Tixeuil

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引用次数: 14

Abstract

We consider the problem of reliably broadcasting information in a multi hop asynchronous network that is subject to Byzantine failures. That is, some nodes of the network can exhibit arbitrary (and potentially malicious) behavior. Existing solutions provide deterministic guarantees for broadcasting between all correct nodes, but require that the communication network is highly-connected (typically, 2k+1 connectivity is required, where k is the total number of Byzantine nodes in the network). In this paper, we investigate the possibility of Byzantine tolerant reliable broadcast between most correct nodes in low-connectivity networks (typically, networks with constant connectivity). In more details, we propose a new broadcast protocol that is specifically designed for low-connectivity networks. We provide sufficient conditions for correct nodes using our protocol to reliably communicate despite Byzantine participants. We present experimental results that show that our approach is especially effective in low-connectivity networks when Byzantine nodes are randomly distributed.

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限制多跳异步网络中的拜占庭影响

我们考虑了在多跳异步网络中受拜占庭故障影响的可靠广播信息问题。也就是说，网络的某些节点可能表现出任意(潜在的恶意)行为。现有的解决方案为所有正确节点之间的广播提供了确定性保证，但要求通信网络高度连接(通常需要2k+1连接，其中k是网络中拜占庭节点的总数)。在本文中，我们研究了低连通性网络(通常是具有恒定连通性的网络)中大多数正确节点之间拜占庭容忍可靠广播的可能性。更详细地说，我们提出了一种专门为低连接网络设计的新的广播协议。我们为使用我们的协议的正确节点提供了足够的条件，以便在拜占庭参与者的情况下可靠地通信。我们给出的实验结果表明，当拜占庭节点随机分布时，我们的方法在低连接网络中特别有效。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2012 IEEE 32nd International Conference on Distributed Computing Systems

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