Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
- The University of Queensland
- Curtin University
- AUSTRALIAN NATIONAL UNIVERSITY (ANU)
- Australian National University
- University of Adelaide
- Monash University
- University of New South Wales
- Macquarie University
- RMIT University
- Central Queensland University
- Edith Cowan University
- La Trobe University
- MACQUARIE UNIVERSITY - SYDNEY AUSTRALIA
- Queensland University of Technology
- RMIT UNIVERSITY
- The University of Western Australia
- 6 more »
- « less
-
Field
-
Research Fellow in Radar and Radio Frequency Sensor Design Job No.: 676242 Location: Clayton campus Employment Type: Full-time Duration: 2 year fixed-term appointment Remuneration: $80,464
-
to research-based activities, including the development of new data analysis algorithms, processing and analysis of field data, and participation in the fieldwork. Your responsibilities will include: Conduct
-
to research-based activities, including the development of new data analysis algorithms, processing and analysis of field data, and participation in the fieldwork. Your responsibilities will include: Conduct
-
project with real clinical potential The Opportunity Are you a highly motivated and technically proficient researcher with expertise in electrochemical sensor development and biomedical engineering? We
-
- Location: Wallumattagal Campus, North Ryde About the Role This position is part of the John Templeton Foundation’s project Cognition All the Way Up. The appointee will work with Dr Bourrat (Philosophy), Prof
-
or condensed matter physics, with a willingness to engage in experimental applications. The successful applicant will also be involved in the design, fabrication and measurement of quantum sensors in the Jesper
-
Lucey, and AIML Chief Scientist, Prof Anton van den Hengel, their research team, and CommBank representatives to publish high-impact research and develop innovative AI solutions for the financial sector
-
radiation therapy. The primary aim of this research is to develop real-time target tracking and/or dynamic imaging algorithms for implementation within radiotherapy and medical imaging. Within our research
-
frameworks (MOFs), and related materials using hybrid classical-quantum algorithms. A key component of the role involves using first-principles methods that capture strong electronic correlations, such as DFT
-
disease patients using radiation therapy. The primary aim of this research is to develop real-time target tracking and/or dynamic imaging algorithms for implementation within radiotherapy and medical