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Consequence simulation of cyber attacks on key smart grid business cases

Doney Abraham, Øyvind Toftegaard, D. R. Binu Ben Jose, Alemayehu Gebremedhin, Sule Yildirim Yayilgan

2024Frontiers in Energy Research11 citationsDOIOpen Access PDF

Abstract

The increasing threat of cyber-attacks on modern power systems highlights the need for a comprehensive examination through simulations. This study conducts an in-depth simulation of cyber-attacks on critical smart grid components, including smart meters, substation automation, and battery management systems, to expose and analyze potential disruptions to power system operations. We identify vulnerabilities that can lead to severe grid instabilities, such as voltage variations, system collapses, and inverter failures. Our analysis underscores the complex interactions between cyber threats and grid components, revealing how disruptions extend beyond mere load interruptions to affect the core infrastructure. We advocate for integrating established cybersecurity frameworks like NIST, ISO/IEC 27001, and IEC 62443, essential in fortifying grid stability against these dynamic threats. Our findings highlight the urgent need for continuous adaptation and enforcement of these frameworks to enhance resilience and ensure the reliability of modern power grids against cyber-attacks.

Topics & Concepts

Smart gridComputer securityResilience (materials science)Cyber-physical systemComputer scienceCyber-attackKey (lock)Electric power systemReliability (semiconductor)GridCritical infrastructureAdaptation (eye)NISTRisk analysis (engineering)Reliability engineeringSystems engineeringPower (physics)EngineeringElectrical engineeringBusinessQuantum mechanicsOperating systemMathematicsPhysicsThermodynamicsNatural language processingOpticsGeometrySmart Grid Security and ResilienceNetwork Security and Intrusion DetectionSmart Grid Energy Management