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myriad of new techniques and much sought-after skills demanded by industry, including the following: Design of experiments, data harvesting/analysis and interpretation of results to derive insight
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. Using detailed energy usage data from different industrial reference sites (offices, manufacturing facilities etc.) to examine what elements are affected by different weather scenarios, the project will
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skilled graduates through research projects that use industrial challenges as the catalyst for methodological advance. Work directly with leading industry partners Many of our PhD projects are developed and
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manufacture of demonstrator structures Overall, the PhD student will have the ability to develop advanced skills at the intersection of structural mechanics, manufacturing process dynamics, and uncertainty
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Manufacturing industries face mounting pressure to reduce environmental impact whilst maintaining efficiency and competitiveness. Traditional approaches often lack real-time insights and predictive
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activities, and a possibility of engagement within a wide range of existing industry-led research projects in the PNT area with rich opportunities for presenting findings at leading international conferences
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for high-energy lithium-ion batteries. This interdisciplinary project bridges polymer chemistry, membrane science, and electrochemical engineering, and involves collaboration with industry experts in
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efficiency and functionality. The process must be carried out with precise alignment between layers and at physical scale and process robustness relevant to industrial manufacture. The project aims
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insulating layers that delays propagation. Industry developments from EV manufacturers highlight the growing focus on lightweight, room-temperature-curing, dielectric coatings for thermal protection
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trustworthy operation of navigation systems in complex, GNSS-denied scenarios. The ultimate goal is to provide the navigation research community and industry with tools and methods that ensure continuous, high