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projects for sustainable, intelligent, and climate change-resilient infrastructure slopes. Current earthworks assessment remains largely based on visual inspection of the surface. Subsurface deterioration is
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). While mRNA vaccines have demonstrated rapid development and high efficacy, current formulations primarily protect against severe disease rather than preventing infection at mucosal entry points
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that connect floating wind turbines to the seabed remain one of the challenging issues in the engineering analysis and design of floating wind applications. Over time, these subsea cables become coated with soft
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work closely with the engineering team at SSEN to translate your research to real-world impacts. What you would be doing As a Research Associate, you will investigate the evolving role of electrical
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. More generally, universality is the property that the large-scale behaviour of some system is independent of the microscopic details. The aim of the project will be to prove results extending our current
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Power and Energy, Electrical Engineering, Computer Science, or Operations Research. While this is our standard entry requirement, we also place strong value on prior experience, enthusiasm for research
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). Additional project costs will also be provided. Overview We are looking for a highly motivated candidate with a background in electronic engineering, physics or a related discipline. Strong practical skills
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closely with the engineering team at SSEN to translate your research to real-world impacts. As a Research Associate, you will investigate the evolving role of electrical loads in power system dynamics and
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loads beyond their original design capacity, hence in urgent need of a reliable real-time damage identification system. The current practice of visual inspection of bridges can be subjective and exposes
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independent of the microscopic details. The aim of the project will be to prove results extending our current understanding of universality in the context of the KPZ class of models. A useful background for