Litcius/Paper detail

A Co-simulation Platform for Evaluating Cyber Security and Control Applications in the Smart Grid

Evandro de Souza, Omid Ardakanian, Ioanis Nikolaidis

202027 citationsDOI

Abstract

The growing adoption of Distributed Energy Re-sources (DER) in low-voltage distribution grids calls for new feedback control algorithms that rely on quasi-real-time data collected by remote sensors. The design and evaluation of such algorithms necessitates a prudent and comprehensive approach since these algorithms require a tight integration of power and communication systems. A simple link failure or a sophisticated cyberattack launched against the grid's monitoring, communication, and control infrastructure could rapidly grow out of control, making the grid unstable. We investigate the design and implementation of a high-fidelity smart grid simulation platform which integrates a network simulator and a power flow simulator using the Mosaik co-simulation framework. The platform allows for evaluating the performance of new control algorithms and understanding dynamics of modern distribution grids. Example case studies are presented to validate the proposed platform.

Topics & Concepts

Smart gridComputer scienceGridDistributed computingFidelityTelecommunications networkControl (management)Embedded systemEngineeringComputer networkTelecommunicationsElectrical engineeringMathematicsArtificial intelligenceGeometrySmart Grid Security and ResilienceReal-time simulation and control systemsSimulation Techniques and Applications