54 algorithm-development-"Prof"-"Washington-University-in-St" Fellowship positions at The University of Queensland
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Campus About This Opportunity The Centre for Integrated Preclinical Drug Development (CIPDD), based in UQ’s School of Biomedical Sciences, is seeking a passionate Research Officer to join our dynamic team
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modeller to help lead a collaborative research programme between the University of Queensland and King Abdulla University of Science and Technology (KAUST) with Prof David Suggett. Our shared goal is to
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commercialisation of UQ intellectual property. Contributing to internal service roles and developing external partnerships. This is a research-focused position. Further information can be found by viewing UQ’s
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at Level B, you will develop and maintain strong working relationships with our clinical and research partners and other stakeholders to facilitate the delivery of current projects and develop future
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-based hail climatology for France, Switzerland and Northern Italy, including hail swaths per event across more than a decade. Design, develop and train geostationary satellite-based hail algorithms using
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: Research: Development and validation of predictive maintenance algorithms for solar farms. Interface with industry partners for knowledge sharing and feedback. Play a key role in reporting to the funding
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research team working at the intersection of nanotechnology and clinical sciences. You will contribute to the development of cutting-edge technologies for precision diagnostics, biosensing, and application
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and cancer immunotherapy. Develop your expertise and research profile working with a high performing team on cutting edge research in state-of-the-art facilities. In this role, you will be expected
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or computational frameworks. Strong interest in method development, including algorithms and/or scientific software development, with a willingness to contribute to codebases or tool creation. Evidence of
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of Mechanical and Mining Engineering, where innovation meets impact. As a key member of this dynamic team, you will develop cutting-edge computational models of two-phase flow in fractured media — ranging from