38 algorithm-development-"Prof"-"Prof"-"Washington-University-in-St" PhD positions at Newcastle University
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known as ‘brittle bone disease’ is a genetic condition which affects the development of type I collagen. Patients with OI have poor mineralisation of their bones and consequently are much more likely to
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synergistically, similar to how systems work in nature. Experimental work will include the following indicative activities: Designing and developing CAD models of test coupons and other structures Fabrication
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, there is currently no biosensor that can reliably detect key TLS biomarkers. This PhD project will focus on developing novel biosensors that integrate platform sensing technology with tailored electroactive
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insights into the microscale transport phenomena relevant to subsurface storage performance, including permeability evolution and CO2 containment. Furthermore, the framework developed here can be extended
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. This PhD project will investigate how biofouling affects the hydrodynamic, thermal and fluid-structure interaction performance of dynamic flexible cables and develop novel engineering solutions to enhance
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element modelling techniques and scripting. Osteogenesis imperfect (OI), also known as ‘brittle bone disease’ is a genetic condition which affects the development of type I collagen. Patients with OI have
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their targets are simulated at the atomistic level. The most widely-used tool for this are molecular mechanics force fields, such as those developed by the Open Force Field Initiative [https://doi.org
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development, collaborate with experts across disciplines, and contribute to open-source tools that advance the wider AI community, and support long-term societal impact. We welcome applicants from background
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-of-the-art AI and computing facilities, receive tailored training and professional development, collaborate with experts across disciplines, and contribute to open-source tools that advance the wider AI
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remain limited due to a lack of systematic comparisons and underused legacy datasets. This project will develop a framework to predict sediment properties directly from geophysical data. Legacy SI data