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Job Offer: PhD Studentship : Data-Driven Image Mechanics (D2IM) : A Deep Learning Approach to Predic:Job description:Qualification Type: PhD The recent advent of deep learning (DL) has enabled data-driven models, paving the way for the full exploitation of rich image datasets from which physics can be learnt. Here at the University of Greenwich we recently developed a novel data-driven image mechanics (D2IM) approach that learns from digital volume correlation (DVC) displacement fields of bone, predicting displacement and strain fields for undeformed X-ray computed tomography (XCT) images [1]. This was the first study using experimental full-field measurements on bone structures from DVC to inform DL-located model such as D2IM, which represents a major contribution in the prediction of displacement and strain fields only located on the greyscale content of undeformed XCT images. The proposed PhD project will expand on this work to further develop D2IM capcapability by incorporating a range of biological structures (hard and soft tissues) and loading scenarios for accurate prediction of physical fields. The project will benefit from a unique InCiTe 3D X-ray microscope from our partner KA Imaging (https://www.kaimaging.com/industry-and-research-solutions/incite-micro-ct/ ) capable of sub-micron resolution and fast phase-contrast (first and only technology of this type in Europe), including in situ mechanics and dedicated software solutions available at the Centre for Advanced Materials and Manufacturing (CAMM) as well as the Centre for Advanced Simulation and Modelling (CASM). The PhD candidate will be involved in the following work: » Development of XCT protocols on the InCiTe 3D X-ray microscope including phase retrieval for in situ mechanics and DVC of hard and soft tissues. » Development of novel DL strategies to enhance D2IM capcapability for a comprehensive prediction of displacement and strain fields in biological tissues, only located on the greyscale content of undeformed XCT images. » Data analysis and dissemination. Data obtained from this project will be disseminated in high-impact journal papers and international conferences. [1] Soar and Tozzi, 2023. Data-driven image mechanics (D2IM): a deep learning approach to predict displacement and strain fields from undeformed X-ray tomography images - Evaluation of bone mechanics. https://www.biorxiv.org/content/10.1101/2023.09.21.558878v1 Year 1: £18,622 (FT) or pro-rata (PT) Year 2: In line with UKRI rate Year 3: In line with UKRI rate In addition, the prosperous candidate will receive a contribution to tuition fees equivalent to the university's Home rate, currently £4,712 (FT) or pro-rata (PT), for the duration of their scholarship. International candidates will need to pay the remainder tuition fee for the duration of their scholarship. This fee is subject to an annual increase. Skills:
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