Structure and Function of Interconnected Critical Infrastructures

2018 Resilience Week (RWS) Pub Date : 2018-08-01 DOI:10.1109/RWEEK.2018.8473545

G. Weaver, T. Klett, T. Holcomb

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引用次数: 2

Abstract

This paper presents ongoing research to understand the interplay between the structure and behavior of critical infrastructure systems. The National Infrastructure Protection Plan (NIPP), Presidential Policy Directive 21 (PPD 21), and other documents underscore the need to conduct risk assessments on critical infrastructure and discover high-risk assets. Complicating this problem however, is that interdependencies that aren’t explicitly modeled as part of the system can be important and greatly impact the system being studied. For example, the reported BadBIOS attack illustrates that through unexpected interactions (e.g. inaudible sounds), systems thought to be air-gapped may communicate with one another. Moreover, the impact of a disruption may be defined relative to some spatial or temporal scale and this may not always be explicit in a risk assessment. By combining graph complexity metrics with simulation, we hope to efficiently identify critical assets as well as understand more about the relationship between structure and function with critical infrastructure systems. This paper presents preliminary results from the electrical power grid as part of our ongoing research effort.

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互联关键基础设施的结构与功能

本文介绍了正在进行的研究，以了解关键基础设施系统的结构和行为之间的相互作用。国家基础设施保护计划(NIPP)、总统政策指令21 (PPD 21)和其他文件强调了对关键基础设施进行风险评估和发现高风险资产的必要性。然而，使这个问题复杂化的是，没有作为系统的一部分显式建模的相互依赖关系可能很重要，并且会极大地影响所研究的系统。例如，报道的BadBIOS攻击说明，通过意想不到的交互(例如，听不见的声音)，被认为是气隙的系统可能会相互通信。此外，中断的影响可以相对于某些空间或时间尺度来定义，这在风险评估中可能并不总是明确的。通过将图形复杂性度量与仿真相结合，我们希望能够有效地识别关键资产，并更多地了解关键基础设施系统的结构和功能之间的关系。本文介绍了电网的初步结果，作为我们正在进行的研究工作的一部分。

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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2018 Resilience Week (RWS)

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