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using alternative fuels and/or increasing the efficiency of the gas turbines. Additively manufactured materials, could help in increasing the temperature at which GTs will run, with a consequent increase
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strategies that can improve sustainability and resilience in decentralised manufacturing networks. A unique selling point of this project is the opportunity for collaboration with world-leading experts through
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and Britain are world leaders and major exporters. This high technology global industry is worth more than £30 billion per annum. Current challenges are arising from the need to address environmental
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system will manage and adjust the way information is used in real time. Cranfield University is a globally recognised postgraduate institution focused on applied research and strong links with industry
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sanitation industries. Working with our established industry partners, you'll implement your innovations in real operational environments, seeing your research make tangible difference while building
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an overarching focus on sustainability in and from space, working closely with industry and agency partners to deliver cutting-edge solutions for real-world problems. Expected impact/results of research project
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AI techniques for damage analysis in advanced composite materials due to high velocity impacts - PhD
to support this research through its deep expertise in aerospace engineering, composite materials, and applied artificial intelligence. As a wholly postgraduate institution with a mission to deliver industry
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systems research group, both of which have strong track records in 6G wireless systems, AI algorithms, air mobility systems, and industry collaboration. The project will deliver new beamforming antenna
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project will take a comprehensive approach, encompassing the design, manufacturing, and characterisation of metamaterial architectures for advanced radiation detection. The research will involve
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navigation integrity, multi-sensor systems, and industry collaboration. The project will deliver a novel localisation framework that advances the state of the art in positioning resilience for 6G systems