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Generative AI for image and video reconstructions from brain signals DoS Dr Vassilis Cutsuridis (vassilis.cutsuridis@plymouth.ac.uk) 2nd Supervisor Dr. Giorgio Ganis (Giorgio.ganis@plymouth.ac.uk
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Application deadline: 30/04/2025 How to apply:uom.link/pgr-apply-2425 How many positions: 1 This 4 year PhD project is fully funded and home students, and EU students with settled status
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generator. Expose them to subzero temperatures to induce freezing. Fragmentation Observation: Use high-speed cameras and laser imaging systems to record and analyze the freezing process and the resulting
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, which amongst its wide research portfolio, conducts cutting edge research into the development novel causal inference, automation and robotic control algorithms. We are seeking for a highly motivated PhD
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closely with members of the Brain Research & Imaging Centre (BRIC) at the University of Plymouth. Ultimately both the imaging and analysis protocols that are developed during this PhD will be utilised in
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the experimental process. Time permitting, flow sheet modelling will convert the theoretical and bench-scale chemistry research into a practical liquid-liquid extraction set-up. This PhD project will run alongside
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Borja Rosales, (pablo.borjarosales@plymouth.ac.uk ) Applications are invited for a 3.5-year EPSRC funded UDLA PhD studentship. The studentship will start on 1st October 2025. Project Description Offshore
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before determining their visual loss arises from cortical, rather than ocular deficits. Tests of cortical visual function are used rarely except by highly specialised neurology/neuro-ophthalmology
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allows a user-friendly choice of model (local vs. global), efficient processing of multi-sequence images as well as setting physical constraints (e.g. incompressibility or known fixed points in the setup
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, machine learning techniques may be integrated to accelerate simulations and improve medical image processing, ultimately aiding in stroke diagnosis and treatment planning. Please note that this is a self