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processing and many others as we move into a low carbon economy. A paradigm shift in technology will be required in order to cope effectively with an ever-increasing amount of renewable energy being brought
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UK MS Tissue Bank (Imperial College) to reveal disease-relevant biological processes to help identify biomarkers and new treatment targets. This project will build on our unique digital MS biobank
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@plymouth.ac.uk ) Applications are invited for a three-year PhD studentship. The studentship will start on 1st October 2025 Project Description A PhD studentship is available in the laboratory of Prof. David
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learning algorithms. This PhD project will explore in-depth the power of cutting-edge deep learning techniques in image understanding, segmentation, classification and change detection, and develop
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, utilities supply, food & beverage processing and many others as we move into a low carbon economy. A paradigm shift in technology will be required in order to cope effectively with an ever-increasing amount
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conditions, these products end up stuck to the sides of the drier (see picture above), leading to wastage and the need for expensive manual removal and cleaning of the equipment. The drying process is complex
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are released in small doses over large areas of natural wetlands and thawing permafrost. Current methane mitigation methods rely on high temperature processes, and this is not feasible and not efficient
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changes (so called swelling). Swollen batteries are at risk of rupturing which may significantly shorten their lifetime. Development of advanced computer models is critical for understanding and