With the proliferation of smart grid technology, cyber security is becoming an urgent concern. Provide an analysis framework by which to evaluate the robustness of a given city scenario for different attacks.Develop methods and policies for rating infrastructures criticality, minimum operational power requirements and dependencies, and smart grid configuration.Perform a quantitative model-based evaluation of developed example scenarios to evaluate security and dependability of the Smart Grids and connected infrastructures.Design means to stop cascading energy system/energy dependent system failures by utilizing: islanding of both grid and ICT infrastructure (continuing operation autonomously).Its focus is on power outages caused by cyber-attacks and how dependability of urban electricity grids and their ICT infrastructure can be improved to overcome and mitigate these attacks through both social and technical means. IRENE aims at evaluating how a decentralized energy generation in urban areas can allocate energy to supply critical infrastructures, should long term power outages occur. Much energy demand (heating, cooling and electricity) will be supplied by decentralized renewable energy and most of the new buildings will be able to produce and even store energy. Energy distribution system operators both existing and new, will be enabled to balance demand and supply by using smart grid technology. In the smart city of tomorrow, energy generation and consumption will differ significantly from what we know today. The project will take an explicit step towards considering security in the given context of utility networks, ultimately yielding a specially tailored solution that is optimal for the application at Hand. The expected impact is thus a movement away from best practice only, towards the treatment of risk in utility networks based on a sound and well-understood mathematical foundation. For that matter, our method will explicitly account for the infrastructure’s two-fold nature in terms of the utility network and the control network alongside it. The project will provide utility network providers with a risk assessment tool that – in adherence with, e.g., the BSI or ICNC recommendations – supports qualitative risk assessment based on numerical (quantitative) techniques. The main objective of this project is to identify and evaluate ‘Hybrid Risk Metrics’ for assessing and categorizing security risks in interconnected utility infrastructure networks in order to provide foundations for novel protection and prevention mechanisms. At the symposium, the following leading research projects presented their research-driven solutions to smart grid security challenges.
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