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to the design, analysis, optimisation, control, and full-scale testing of advanced wind turbine systems. Depending on your expertise, you will play a key role in either blade design, structural dynamics
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initiative developing the next generation of smart wind turbine blades. As part of the Australian Economic Accelerator Innovate project, this role will see you contribute to the design, analysis, optimisation
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governance. In this role, you will lead efforts to design evidence-based risk assessments, establish compliance standards, and create governance frameworks that enable secure, ethical, and scalable federated
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work as part of a multidisciplinary team of researchers, including internal and external investigators and partners, within the Partnership. The position-holder is responsible for study design
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the entire innovation journey, from data collection and model development to real-world deployment. A major outcome of this position is the creation of an advanced AI system that will be integrated
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health promotion across the Torres Strait. Work in partnership with communities to co-design and deliver culturally grounded health initiatives. Grow your research career within a supportive, collaborative
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, optimise, and design experiments using lab-scale bioreactor systems. You will generate the high-quality biological datasets required to train the biological layer of a digital twin, a computational model
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the design and delivery of international development short courses and select teaching activities that embed systems thinking into agribusiness and agricultural economics curricula. Key responsibilities will
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will include: Core Scientific Apply genome editing (e.g., CRISPR/Cas9) and modular cloning techniques to engineer yeast strains. Design engineered yeast to track cell cycle and productivity in
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, industry engagement, and building international networks. It promotes diversity in all aspects as a way to enhance innovation, outcomes and productivity. Along with other initiatives, the University provides