Graph-based Model of Smart Grid Architectures
This addresses the need for precise modeling in smart grids to assess security risks, though it is incremental in automating model generation.
The paper tackles the problem of modeling smart grid infrastructures for co-simulation by presenting an automated approach to generate coupled models from electrical distribution grids, demonstrating applicability in network planning, co-simulation setup, and intrusion detection.
The rising use of information and communication technology in smart grids likewise increases the risk of failures that endanger the security of power supply, e.g., due to errors in the communication configuration, faulty control algorithms, or cyber-attacks. Co-simulations can be used to investigate such effects, but require precise modeling of the energy, communication, and information domain within an integrated smart grid infrastructure model. Given the complexity and lack of detailed publicly available communication network models for smart grid scenarios, there is a need for an automated and systematic approach to creating such coupled models. In this paper, we present an approach to automatically generate smart grid infrastructure models based on an arbitrary electrical distribution grid model using a generic architectural template. We demonstrate the applicability and unique features of our approach alongside examples concerning network planning, co-simulation setup, and specification of domain-specific intrusion detection systems.