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tools to record and derive important contextual information. The student will also learn relevant statistical techniques such as Linear Mixed Modelling to compare between drills and competition
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behaviour. The project will be conducted through a mixed method research design (e.g., expert interviews and survey). It is feasible to complete the study in three to three and half years. It will receive
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working at QUT. Campuses and venues Gardens Point campus Maps and getting here Around campus Libraries and learning spaces Gym and sports facilities Food and retail Kelvin Grove campus Maps and getting here
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of their remnants (including predictions for GW sources); mixing and transport processes in the stellar interior; nucleosynthesis and the origin of elements, including galacto-chemical evolution - which elements
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to apply: Seismic wave propagation theory; seismic data acquisition and processing; signal processing, seismic imaging, geophysical inversion, scientific programming, reservoir modelling. Previous research
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engineering coupled with a master’s degree and/or job experience in the relevant topic. A track record of publications and relevant software skills would be a plus point. The ideal candidate will have a
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traction as a key tool for biodiversity monitoring. However, there remain significant challenges in its widespread uptake. This project will investigate the soundscape features that indicate intact and
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black hole birth properties" (with Prof Mandel) "Multi-Messenger Signals (Photons, Neutrinos, Gravitational Waves) from Supernovae" web page For further details or alternative project arrangements, please
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) scholarship available International candidate International candidate Contact Dr Du Yong Kim, duyong.kim@rmit.edu.au Contact Dr Du Yong Kim, duyong.kim@rmit.edu.au The candidate will be working on Signal
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in conventional imaging, and to access a complementary ‘dark-field’ signal that originates from tiny sample structures. We do this by designing and implementing novel experimental set-ups and