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Developing cyber-physical experimental capabilities for the security analysis of the future smart grid.
| Content Provider | CiteSeerX |
|---|---|
| Author | Genge, Béla Siaterlis, Christos |
| Abstract | Abstract—During the evolution of today’s power grid to a Smart Grid it is expected that IP-based communication protocols including Supervisory Control And Data Acquisition (SCADA) systems, will form the basis of communications architecture for substation and distribution automation, advanced metering and home area networking applications. However, this will lead to many Smart Grid security challenges- a forecast that is supported by the vulnerability of current SCADA systems. In this paper we examine how our experimental framework that has been developed for the modeling and simulation of local power plants can be extended and efficiently used for the study of complex wide area environments such as the future Smart Grid. We show that our framework is flexible enough to be easily extended with components for satisfying the requirements of a complex environment as the future Smart Grid. The main contribution of the paper is that it proposes a framework for experimenting with the Smart Grid that can be used by researchers to recreate an experimentation environment for measuring and understanding the consequences of cyber attacks on the Smart Grid. The paper also presents the study of a cyber attack involving compromised control hardware and the IEEE 9-bus system. The results confirm that we can experimentally recreate and study oscillations in the power grid caused by adversaries that attack the system through its IP-based control subsystem. Index Terms—Cyber-physical, security, experimentation, framework, Smart Grid. |
| File Format | |
| Access Restriction | Open |
| Subject Keyword | Future Smart Grid Smart Grid Security Analysis Cyber-physical Experimental Capability Cyber Attack Power Grid Complex Environment Supervisory Control Data Acquisition Distribution Automation Ieee 9-bus System Many Smart Grid Security Communication Architecture Ip-based Control Subsystem Control Hardware Main Contribution Index Term Experimentation Environment Local Power Plant Experimental Framework Home Area Networking Application Current Scada System Ip-based Communication Protocol Complex Wide Area Environment |
| Content Type | Text |
| Resource Type | Article |
