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applications, including renewable energy systems (e.g., wind turbines), smart grids, and emerging electrified platforms such as electric ships or microgrids. Expected outcomes include novel methods for device
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Systems. The project is sponsored by UKRI with the aim to conduct modelling, analysis and optimisation of smart power distribution grids and integrated power and transportation networks. In collaboration
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and EU-funded research projects, and has extensive know-how in 5G/6G communication platforms, IoT platforms, and Demand Response algorithms for the Smart Grid. IQU is also active in many EU-funded
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, intrusion detection, and AI-based cybersecurity. The research also encompasses the protection of critical infrastructure, including smart grids and secure software supply chains. At the university's
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are developed for areas such as verification, intrusion detection, and AI-based cybersecurity. The research also encompasses the protection of critical infrastructure, including smart grids and secure software
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How do we build grid batteries that are cheap, safe and made from abundant materials? Zinc-ion batteries (ZIBs) are a promising answer – zinc is low-cost, non-toxic and works in water-based
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the Sustainable Power Electronics and Electrification Research Group at the Department of Energy in Aalborg. Modern energy systems, such as electric vehicle chargers and power grids, are increasingly exposed
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electric vehicle chargers and power grids, are increasingly exposed to cyber attacks that can cause physical damage. AI:HARDWARE uses AI to protect this infrastructure and to design hardware that is secure
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a set of use cases with energy community projects ranging from smart grid experimentation and energy sharing in rural regions in the Netherlands to developing an energy community in Amsterdam
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Vulnerability Detection of Smart Grids with a Specific Focus on Generative Adversarial Networks (GAN) Attacks Primary supervisors: Professor Damminda Alahakoon & Dr Shalinka Jayatilleke Other supervisors