Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
-
Field
-
This PhD Scholarship is funded by 2022 ARC Discovery Project “Modelling temporal evolution in spatial ecology with dynamical point processes". The world is undergoing rapid environmental change
-
to integrate floating offshore wind turbines and wave energy converters to capture wind and wave energy. The hybrid system’s dynamic responses will be investigated and advanced vibration control technologies
-
The project also has a sub aim of protecting the heart from radiation during radiation therapy treatments for cancer patients. The project would suit someone with a strong maths, physics or engineering background who has an interest in image reconstruction and/or modelling the mechanics of the...
-
What you'll receive You will receive: a minimum of $30,000 per year, for 3 years a QUT tuition fee sponsorship (for international students). Eligibility You must: fulfil our PhD admission criteria , including English language requirements (an IELTS score of 6.5 or above if English is not your...
-
prediction, signal tracking, fluid dynamics, and space exploration. Advancing Signal Modelling with Physics-Informed Neural Networks This project aims to develop Physics Informed Neural Networks (PINNs
-
spatial and single-cell datasets to identify molecular mechanisms underlying therapy response and resistance. Their work will also explore tumor microenvironment dynamics—such as immune cell infiltration
-
controlled environment. The candidate will be supervised by ARC Laureate Fellow Professor Hongxia Wang, and they will have the opportunity to engage in a dynamic environment with members of the solar cells
-
networks. C2 research that better reflects the rich dynamics and complexities that occur in real-world contexts has the potential to result in major benefits for many sociotechnical systems. Therefore
-
fracture outcomes using a static locked femoral nail or a femoral nail in the dynamic mode with a sliding lag screw. Clinical factors (including analgesic requirements, Time up and go) and radiological
-
systems, tephrochronology, and Quaternary geochronology. These tools will be applied, for example, to study the dynamics of active caldera complexes (e.g., Toba in Indonesia and/or Cerro Blanco in Argentina