任意有向图中的迭代近似拜占庭共识

IF 1.3 4区 计算机科学 Q3 COMPUTER SCIENCE, THEORY & METHODS
Lewis Tseng, Guanfeng Liang, Nitin H. Vaidya
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引用次数: 0

摘要

本文确定了在任意有向图(每个有向链接代表一对节点之间的通信通道)中实现近似拜占庭共识的迭代算法存在的必要条件和充分条件。本文考虑的这一类迭代算法确保在算法的每次迭代之后,每个无故障节点的状态都保持在上一次迭代结束时无故障节点状态的凸环内。我们以两种不同的等价形式提出了在存在拜占庭故障的同步任意点对点网络中这种迭代共识算法存在的必要条件和充分条件。我们使用不可分性论证来证明必要性。对于充分性,我们开发了一个证明框架,首先使用一系列 "过渡矩阵 "来模拟使用我们算法的无故障节点的状态演化,然后通过确定矩阵的重要属性来证明其正确性。该证明框架对其他迭代容错算法也很有用。我们讨论了对异步系统和拜占庭链路故障模型的扩展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Iterative approximate Byzantine consensus in arbitrary directed graphs

Iterative approximate Byzantine consensus in arbitrary directed graphs

This paper identifies necessary and sufficient conditions for the existence of iterative algorithms that achieve approximate Byzantine consensus in arbitrary directed graphs, where each directed link represents a communication channel between a pair of nodes. The class of iterative algorithms considered in this paper ensures that, after each iteration of the algorithm, the state of each fault-free node remains in the convex hull of the states of the fault-free nodes at the end of the previous iteration. We present the necessary and sufficient condition for the existence of such iterative consensus algorithms in synchronous arbitrary point-to-point networks in presence of Byzantine faults in two different equivalent forms. We prove the necessity using an indistinguishability argument. For sufficiency, we develop a proof framework, which first uses a series of “transition matrices” to model the state evolution of the fault-free nodes using our algorithm, and then proves the correctness by identifying important properties of the matrices. The proof framework is useful for other iterative fault-tolerant algorithms. We discuss the extensions to asynchronous systems and the Byzantine links fault model.

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来源期刊
Distributed Computing
Distributed Computing 工程技术-计算机:理论方法
CiteScore
3.20
自引率
0.00%
发文量
24
审稿时长
>12 weeks
期刊介绍: The international journal Distributed Computing provides a forum for original and significant contributions to the theory, design, specification and implementation of distributed systems. Topics covered by the journal include but are not limited to: design and analysis of distributed algorithms; multiprocessor and multi-core architectures and algorithms; synchronization protocols and concurrent programming; distributed operating systems and middleware; fault-tolerance, reliability and availability; architectures and protocols for communication networks and peer-to-peer systems; security in distributed computing, cryptographic protocols; mobile, sensor, and ad hoc networks; internet applications; concurrency theory; specification, semantics, verification, and testing of distributed systems. In general, only original papers will be considered. By virtue of submitting a manuscript to the journal, the authors attest that it has not been published or submitted simultaneously for publication elsewhere. However, papers previously presented in conference proceedings may be submitted in enhanced form. If a paper has appeared previously, in any form, the authors must clearly indicate this and provide an account of the differences between the previously appeared form and the submission.
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