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behind this efficiency by developing a general model of wing mechanosensing, revealing how sensor distribution and morphology have co-evolved with flight dynamics. The successful applicant will: Measure
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to self-organize into complex structures. Our approach is to develop sophisticated mathematical models – informed by state-of-the-art biological knowledge and experimental data – to understand
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optimisation techniques and AI-based models to support decision-making in microgrid design and operation. Working in collaboration with a leading global mission critical firm of engineers, this project offers
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, to contribute to cutting-edge research on the early detection and prevention of primary intestinal tumours using animal models of ageing. The project involves a range of advanced techniques, such as complex mouse
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-mechanical model of microwave circuits Electromagnetic modeling of microwave circuits CAD design of microwave circuits Room temperature and cryogenic measurement setups for microwave circuits Execution and
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the decision is made to open the post to external candidates, the strapline at the top will be removed and you will be given ample time to apply – please check back periodically for details. The School
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clinical studies, including challenge human infection models. Collaborate on Clinical Trials: Work closely with clinical collaborators to implement statistical methods for ongoing trials at the Doherty
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Research Fellow who will work in the wider Theme B: Sustainable Food System and Supply. The post involves using sectoral datasets, and a demand elasticity matrix, to model future supply scenarios of food
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tasks will include: 1. Evaluating supplier relationships, market effects, logistics dependencies, and long-term resource availability. 2. Developing an optimised supply chain model, including
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prostate cancer risk across diverse ethnic groups. This work aims to support more equitable risk stratification in cancer screening programmes. Using simulations based on multistate modelling framework