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PhD Scholarship in Integrated Photonics for Telecommunication, Biosensing and Precision Measurements
PhD projects in the area of biosensing, communication and precision measurements. Detailed PhD project descriptions that can be found on our webpage (InPAC). To pursue these projects, we are looking
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Status: Closed Applications open: 16/09/2024 Applications close: 31/10/2024 View printable version [.pdf] About this scholarship Description/Applicant information Forrest Research Foundation PhD
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PhD opportunity offered by the Space Technology and Industry Institute Full-time, fixed-term position (3 years) at our Hawthorn campus Scholarship stipend $47,000+ p.a. for 3 years About the Role
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role supports the development of a novel nanophotonic therapy to treat drug-resistant hypertension—a major and growing global health challenge. The successful candidate will focus on synthesising
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confirmation) The Opportunity This is an opportunity for a talented PhD candidate with strong skills in developing prototype systems for Extended Reality (XR - which encompasses augmented and virtual reality
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deep learning, imaging and data analysis would be helpful for this project. Must be eligible to enrol in PhD programs at Curtin University. Application process Please send your CV, academic transcripts
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drones can capture visual and thermal imaging at a very high resolution, suitable for detecting photovoltaic modules and the cleanliness of solar panels. These images and other data can be processed by
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position is monitoring administrative processes across the student lifecycle—starting from commencement through to completion—to ensure alignment with both internal university policies and the ESOS Framework
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Centre for Forensic Behavioural Science Full time, fixed term position at Alphington, Victoria Stipend of $40,000 p.a. for 3 years About the Scholarship We have an exciting PhD scholarship
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, the aim of this project is to develop and validate an experimental paradigm that can describe the dynamic processes underlying C2 agility and to characterise the situational factors by which C2 agility can