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publication Strong programming skills and familiarity with machine learning or finite element modelling Not currently receiving another scholarship of equal or higher value Application process Future student
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acceptance of your application. Eligibility You must have experience in biomechanics and/or spine research. Further eligibility criteria will be provided following successful acceptance of your application
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finite element methods, which demand extensive data and are costly, PINNs embed governing physical laws directly into the learning process. This allows effective management of limited and noisy data
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-athletes. Leveraging state-of-the-art artificial intelligence (AI), markerless motion capture and stereo vision technologies, this research will tackle critical challenges in biomechanics and sports science
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) + Finite element methods for complex flows in porous media (generalized multiscale finite elements via autoencoders, adaptive in space and time, splitting methods, and variational flux recovery) + Adaptive r
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Degree by Research) degree to be eligible. Must possess a First-Class Honours degree, H2A (or equivalent) or a Masters degree with a significant thesis component. How to Apply The applicant needs to be in
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scholarship package totalling approximately $47,000 per annum tax exempt (2025 rate). A four year Project Expense and Development package of $13,000 per annum. A 60 day Industry Engagement component with
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scholarship package totaling approximately $47,000 per annum tax exempt (2025 rate). A four year Project Expense and Development package of $13,000 per annum. A 60 day Industry Engagement component with
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applicants who hold an Australian (or equivalent international) Honours or Master's degree (both in a relevant field), with a significant research component and with first-class honours/H1 awarded. Details
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burden and symptoms, to compare the cycling biomechanics of those with and without knee pain, and 2) to co-design an intervention in conjunction with cyclists and clinicians to optimise cycling mechanics