Non-Consensus Opinion Model with Byzantine Nodes

2022 12th International Workshop on Resilient Networks Design and Modeling (RNDM) Pub Date : 2022-09-19 DOI:10.1109/RNDM55901.2022.9927718

Xinhan Liu, M. Achterberg, R. Kooij

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Abstract

pinion dynamics models study how the interaction among people influences the opinion formation process. In most opinion dynamics models, only one opinion can exist in the steady state, which is different from the real-life opinion formation process. In 2009, Shao et at. introduced a Non-Consensus Opinion (NCO) model, which allows different opinions to coexist in the steady state. This paper extends the NCO model by introducing a special type of nodes, namely Byzantine nodes, to play the role of dishonest people. We perform simulations on three different network models: small-scale graphs, Erdős-Rényi random graphs and scale-free networks. We find a new steady state for the NCO model: the cyclic steady state. The cyclic behavior of the NCO and Byzantine NCO model is discussed, including a method to generate networks with extremely long cycle lengths. Other properties of the Byzantine NCO model, such as the probability of cyclic behavior and the final opinion distribution, are also studied. We find that the introduction of Byzantine nodes generally steers towards a more balanced steady state and increases the probability of cyclic behavior. The latter is particularly problematic in communication systems, where the large cycle lengths may cause a very slow consensus process and thus stalling future communications.

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具有拜占庭节点的非一致意见模型

齿轮动力学模型研究人与人之间的互动如何影响意见形成过程。在大多数意见动态模型中，稳定状态下只能存在一种意见，这与现实生活中的意见形成过程不同。2009年，邵逸夫在北京出生。引入非共识意见(NCO)模型，允许不同意见在稳定状态下共存。本文扩展了NCO模型，引入了一种特殊类型的节点，即拜占庭节点，来扮演不诚实的人的角色。我们在三种不同的网络模型上进行了模拟:小规模图、Erdős-Rényi随机图和无标度网络。我们发现了NCO模型的一个新的稳态:循环稳态。讨论了NCO和Byzantine NCO模型的循环行为，包括一种生成极长周期网络的方法。拜占庭NCO模型的其他性质，如循环行为的概率和最终意见分布，也进行了研究。我们发现，引入拜占庭节点通常会转向更平衡的稳态，并增加循环行为的概率。后者在通信系统中尤其成问题，其中较大的周期长度可能导致协商一致过程非常缓慢，从而阻碍未来的通信。

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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2022 12th International Workshop on Resilient Networks Design and Modeling (RNDM)

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