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project says it all: ’Quantitative Imaging that (white) Matters: taking biophysical modelling to clinical applications’. This research initiative aims to improve myelin water imaging (MWI) in the context
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models of predictive coding in the auditory cortex—shaping our understanding of brain function from the ground up. Predictive coding and predictive processing are compelling theories to explain brain
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applications, ranging from non-invasive cancer treatments to contrast imaging and targeted drug delivery. The research will be supervised by Dr Vanja Nikolić. Learn here more about the project in non-technical
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. Research methods include computational modelling, brain imaging (fMRI), machine learning, behavioural methods, and other techniques. Virtually everything we sense, think and do is uncertain. For instance
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are IMAPP’s departments of High-Energy Physics, including a very strong theory group in quantum gravity led by Renate Loll, and Astrophysics, including a world-leading group in black hole imaging utilising
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on studies of visual perception and decision-making. Research methods include computational modelling, brain imaging (fMRI), machine learning, behavioural methods, and other techniques. Virtually everything we
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Institute for Brain, Cognition and Behaviour. You will work on studies of visual perception and decision-making. Research methods include computational modelling, brain imaging (fMRI), machine learning
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institutional nature of placemaking and spatial-environmental governance. The group seeks to contribute to more future-oriented practices and territorial images. Located at GPE, the Centre for Urban and Regional
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-oriented practices and territorial images. Located at GPE, the Centre for Urban and Regional Research (CentUR) specifically investigates the relationship between urban spaces, landscape, energy, health