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ADM+S invites applications for PhD scholarships from students interested in the following areas: The development and distribution of automated decision-making (ADM) systems The applications
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. This research investigates automated testing techniques to enhance the effectiveness and efficiency of the testing process. It also aims to propose novel metrics and performance criteria to evaluate
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This project is funded by the ARC Centre of Excellence for Automated Decision-Making and Society. This project is funded by the ARC Centre of Excellence for Automated Decision-Making and Society
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AUD $34,841 for 3 years AUD $34,841 for 3 years Applications are now open. Applications are now open. 18 September 2024 18 September 2024 1 (One). 1 (One). Masters and/or 4 years Bachelors with a significant minor thesis component Masters and/or 4 years Bachelors with a significant minor thesis...
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For students who are interested in computational and materials chemistry and learning to perform and analyse cutting-edge molecular modelling and advanced multiscale simulations. For students who are interested in computational and materials chemistry and learning to perform and analyse...
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computer vision and machine learning methods and adapt new algorithms to automate inspection procedures of PV plants. Given the data captured by a remotely operated drone, we first investigate the required
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approaches to explore problems associated with membrane charge transport. Ion channels are proteins that control the movements of charged molecules across cell membranes to enable electrical activity in
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transport and energy conversion. The incorporation of 2D nanomaterials as sacrificial layers enables precise control over nanochannel architecture, ensuring enhanced selectivity, mechanical robustness, and
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mechanisms of online media platforms by granting users full control over their sensitive information. Innovation. To meet users' varying privacy demands, this project put forward a graph-based user
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description of how these proteins respond to physiological stimuli to control electrical signalling the body. This project, in collaboration with researchers at Cornell University, USA, is funded by