利用两个模糊推理系统为信息不精确的相互依存基础设施系统脆弱性建模

Shidong Pan, Kyle Bathgate, Zhe Han, Jingran Sun, Zhanmin Zhang
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引用次数: 0

摘要

基础设施系统在经济发展和社会生活质量方面发挥着重要作用。基础设施系统之间存在相互依存关系:一个系统的功能中断会影响到从属系统,从而使影响升级。要了解破坏性事件对基础设施系统的全面影响,就必须对相互依存关系进行正确建模。由于各种原因,基础设施相互依存性的定量数据往往难以获得或无法获得。为了克服定量数据稀缺的问题,在相互依存分析中使用了定性的主题专家知识,主要是以语言反应的形式。语言数据容易受到预期含义变化所带来的不确定性的影响,从而可能产生不准确的结果。本文提出了一个解决这一问题的框架,使用两个模糊推理系统来模拟特定事件的全网基础设施故障。第一个模糊推理系统利用口头描述对相互依存关系引起的损害进行建模。第二个模糊推理系统考虑到了相互依赖所造成的多种间接损害的协同复合效应。我们进行了一项案例研究,利用英国的配电和配气网络证明了建议方法的适用性。进行了敏感性分析,以显示模糊推理系统的灵活性。结果表明,所提出的方法可以利用模糊推理系统对基础设施系统的相互依赖性和脆弱性进行建模,以处理不精确的输入。建议的框架可帮助从业人员更好地理解基础设施系统的相互依存性和脆弱性,并做出更明智的决策,以减少破坏性事件造成的损失。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling Interdependent Infrastructure System Vulnerability with Imprecise Information Using Two Fuzzy Inference Systems
Infrastructure systems play important roles in economic development and the social quality of life. Interdependencies exist between infrastructure systems: a functional disruption in one system can affect dependent systems, thereby escalating the impacts. It is vital to properly model interdependencies to understand the full impacts of disruptive events on infrastructure systems. Quantitative data on infrastructure interdependency is often difficult to obtain or unavailable for a variety of reasons. To overcome quantitative data scarcity issues, qualitative subject expert knowledge has been used in interdependency analysis, primarily in the form of linguistic responses. Linguistic data is susceptible to uncertainties arising from variations in intended meanings, which may yield inaccurate results. This paper proposes a framework to address this problem using two fuzzy inference systems to model event-specific, network-wide infrastructure failures. The first fuzzy inference system models the damage induced by interdependencies using verbal descriptions. The second fuzzy inference system accounts for synergistic, compounding effects of multiple incidences of indirect damage caused by interdependencies. A case study is conducted to demonstrate the applicability of the proposed methodology using electric and gas distribution networks in the United Kingdom. Sensitivity analyses are performed to show the flexibility of the fuzzy inference systems. The results show that the proposed method can model the interdependency and vulnerability of infrastructure systems using fuzzy inference systems to handle imprecise input. The proposed framework may assist practitioners in better understanding the interdependency and vulnerability of infrastructure systems, and in making more informed decisions to reduce losses resulting from disruptive events.
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