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methodologies and contribute to a new data product that integrates model outputs into our platform - helping us better understand environmental exposures and health outcomes. About This Opportunity This is a
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Intelligence at The University of Queensland, this newly established lab is on a mission to empower expert decision-makers by harnessing the power of AI to tackle complex challenges. With a strong emphasis on
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fully resolved single-fracture simulations to large-scale discrete fracture network (DFN) upscaling. Your work will directly address high-value industry challenges in energy and resource systems. CML is
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experience with coding in Matlab, Python, or R. Strong track record in computational science, image analysis, or mathematical modelling of complex systems. Evidence of publications in reputed refereed journals
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, with a specific focus on complex biological systems. The project aims to apply highly controlled optical trapping techniques to investigate cell–fluid interactions during macropinocytosis (“cell drinking
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complex multiphysics problems, and want to drive meaningful change through research - this might be the role for you! This is your opportunity to work on high-impact projects—from modelling fluid flow in
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you will be challenged, inspired and rewarded working alongside like-minded people with a culture of collaboration and excellence and a shared vision to create change. While creating change is our