27 algorithm-"Multiple"-"Prof"-"Simons-Foundation"-"St" positions at UNIVERSITY OF SYDNEY in Australia
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Multiple Continuing (Tenure-Track) Academic Positions, School of Electrical and Computer Engineering
/unijobs/listing/399932/multiple-continuing… Requirements Additional Information Work Location(s) Number of offers available1Company/InstituteUNIVERSITY OF SYDNEYCountryAustraliaCitySydneyPostal
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Multiple Continuing (Tenure-Track) Academic Positions, School of Electrical and Computer Engineering
Join a thriving Faculty of Engineering at a University ranked amongst the world’s best teaching and research institutions Located in the heart of Sydney’s bustling inner west quarter, close to beaches, parks, public transport and shopping districts Seeking outstanding academics to provide...
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-based algorithms (e.g., GNNs, deep reinforcement learning) design and simulate dynamic models of megaproject systems prepare and submit journal articles to high-impact publications contribute
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learning at scale. Research directions include designing algorithms and methods for adaptive and personalised feedback, modelling learning behaviours with sequence and deep learning methods, and generating
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multiple programming languages, including R, Python, MATLAB and/or shell scripting. Well-defined skills in the visualisation of neuroimaging and neuroscience results. The analysis and interpretation
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interviews with participants using multiple standardised clinical assessment instruments according to the research protocol liaising and communicating with other clinical staff (psychiatrists, clinical
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the EU Research Framework Programme? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Multiple Continuing (Tenure-Track) Academic
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Multiple Continuing (Tenure-Track) Academic Positions, School of Biomedical Engineering, Faculty of Engineering, The University of Sydney Join a thriving Faculty of Engineering at a University
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. This project will advance our understanding of the conditions that led to reef growth, stress, collapse, and recovery during periods of rapid climate and environmental change, spanning multiple spatial and
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recovery during periods of rapid climate and environmental change, spanning multiple spatial and temporal scales. The PDRA will be based in the Geocoastal Research Group within the School of Geosciences