弹性智能计量基础设施的自动配置综合

M. Rahman, Amarjit Datta, E. Al-Shaer
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引用次数: 7

摘要

高级计量基础设施(AMI)由大量智能电表和异构网络物理组件组成,这些组件通过不同的通信媒体、协议和交付模式相互连接,用于在电表和公用事业公司之间传输使用报告或控制命令。由于配置错误或缺乏安全控制,可能会导致AMI的操作中断,从而造成经济损失。因此,AMI的弹性至关重要。在本文中,我们提出了一个自动化配置综合框架,通过消除错误配置来减轻潜在的威胁,并通过引入鲁棒性来限制意外情况下的损害。我们正式建模AMI配置,包括考虑AMI设备配置、攻击或故障以及弹性指导方针之间的相互依赖性的操作完整性和健壮性属性。我们使用可满足模理论(Satisfiability Modulo Theories, SMT)实现了该模型,并通过一个示例案例研究演示了其执行情况,该案例研究说明了满足弹性需求的AMI配置的综合。我们还在合成AMI网络上对该框架进行了评估。
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Automated Configuration Synthesis for Resilient Smart Metering Infrastructure
An Advanced Metering Infrastructure (AMI) comprises a large number of smart meters along with heterogeneous cyber-physical components that are interconnected through di ff erent communication media, protocols, and delivery modes for transmitting usage reports or control commands between meters and the utility. Due to misconfigurations or lack of security controls, there can be operational disruptions leading to economic damage in an AMI. Therefore, the resiliency of an AMI is crucial. In this paper, we present an automated configuration synthesis framework that mitigates potential threats by eliminating misconfigurations and keeps the damage limited under contingencies by introducing robustness. We formally model AMI configurations, including operational integrity and robustness properties considering the interdependencies among AMI devices’ configurations, attacks or failures, and resiliency guidelines. We implement the model using Satisfiability Modulo Theories (SMT) and demonstrate its execution on an example case study that illustrates the synthesis of AMI configurations satisfying resiliency requirements. We also evaluate the framework on synthetic AMI networks.
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