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Status: Closed Applications open: 1/07/2024 Applications close: 18/08/2024 View printable version [.pdf] About this scholarship Description/Applicant information Project Overview The concept of individualisation of training to maximise the adaptive response is as important for team sport...
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, the internal workings of deep neural networks remain largely mysterious, posing a significant challenge to the interpretability, reliability, and further advancement of these models. This project seeks deep
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compartmental models for RSV developed within the STAMP-RSV program by tailoring an established software library for individual simulation to the Australian RSV transmission context. Information to parameterise
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on social media platforms used by young people. The successful candidate will: 1) Design the tools to capture and describe the volume and content of outdoor alcohol advertising in defined aquatic locations in
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opportunities to join the Curtin enAble Institute’s EMCR network that offers mentoring, research capacity building and professional development opportunities to HDRs and early career researchers. They will be
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advertising in defined aquatic coastal locations in WA; 3) Design an audit tool and conduct an audit of licensed venues in both coastal and non-coastal locations to observe availability, visibility, advertising
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(www.ledbyexperience.org) and network of collaborators in a recent review stated that societal issues of climate change, military conflict, and criminality, are inevitably connected with those of mental health and well
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success for reactions that involve a net gain or loss of electrons: electrochemical reactions. These are an important class of reactions as they can be driven directly by renewable electricity, contributing
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qualitative research methodologies including research skills and some experience with the use of qualitative data software such as NVivo. The candidate: Must meet all Curtin University HDR enrolment
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distribution and transmission network in Australia present a potential solution. This network includes 42,000 km of high-pressure low-carbon steel pipelines for transmission and 97,000 km of low-pressure