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required for explanation. This PhD project will focus on the neurosymbolic intersection by treating LLMs as conjecture machines that generate candidate explanations for complex problems, and by developing
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for self-reflection on your performance and progress. You will meet regularly with senior core technical staff and technical managers to discuss your progress and development. You are expected to demonstrate
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optimise the algorithms for optimal process control. The research will benefit from the available experimental facilities including laboratory-scale digesters, excellent analytical facilities, expertise in
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of engineers and developers from multiple disciplines to develop novel solutions for the high-value manufacturing sector. You will be expected to deliver tasks with support from senior colleagues, work
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appropriate. Work with relevant colleagues to develop, implement and annually review H&S arrangements in line with University H&S policy and guidance, with reference to best practice. Review the project’s
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vesicles in atherosclerosis. You will have an opportunity to further develop research expertise, cultivate grant writing skills, and contribute to scientific publications. The successful candidate will be
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retrofitted interventions such as SUDS (sustainable urban drainage systems). Working with project partners you will use the results to establish if and how urban developments can be reimagined, to improve
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committee, leading the Careers and Development committee. Candidate A good undergraduate honours degree in a relevant science subject is required. Any further research stays, publications or experience with
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project offers an exciting opportunity to radically reimagine LPBF through the use of a novel hybrid multi-laser architecture. Working with exclusive, state-of-the-art laser systems developed at the
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project offers an exciting opportunity to radically reimagine LPBF through the use of a novel hybrid multi-laser architecture. Working with exclusive, state-of-the-art laser systems developed at the