Sort by
Refine Your Search
-
Listed
-
Program
-
Employer
- University of Sydney
- The University of Queensland
- Curtin University
- Monash University
- AUSTRALIAN NATIONAL UNIVERSITY (ANU)
- MACQUARIE UNIVERSITY - SYDNEY AUSTRALIA
- Macquarie University
- RMIT UNIVERSITY
- ADELAIDE UNIVERSITY
- RMIT University
- FLINDERS UNIVERSITY
- Flinders University
- The University of Western Australia
- University of New South Wales
- University of Tasmania
- 5 more »
- « less
-
Field
-
integration of high-dimensional multi-omics, biomarker, and wearable-derived data. Aligned with the mission of the Charles Perkins Centre—to ease the burden of chronic lifestyle diseases and improve global
-
body sensory pathways in collaboration with interstate partners. Coordinating Sydney-based research activities within the broader multi-institutional team, including data sharing and collaborative visits
-
Research Fellow - Organ-on-chip Technology Job No.: 692000 Location: Parkville Campus and Melbourne Centre for Nanofabrication in Clayton Employment Type: Full-time Duration: 2 year fixed-term
-
The Opportunity Join the newly-established Academic Node within the Centre for Drug Candidate Optimisation (CDCO), where you will contribute to innovative work addressing some of the most complex challenges in
-
opportunity to work alongside the brightest minds, who have joined us from all over the world, and within an environment where interdisciplinary collaborations are encouraged. At the core of our teaching
-
disseminate high-quality peer-reviewed outputs in leading conferences and journals, such as CORE A* venues and top-tier international publications. Expertise in reinforcement learning, multi-agent systems, and
-
community of staff are united by our purpose to inspire Australia’s future change-makers and create a better tomorrow. Work that matters Advance the frontier of AI by developing multi-agent systems capable
-
multi-disciplinary and action-oriented. We partner with researchers internationally on policy-relevant research and collaborative analyses to address urgent global health and nutrition challenges
-
university. This multi-disciplinary research is expected to lead to high-impact publications, and conference presentations, while generating knowledge to advance bio-adhesion technologies that mimic
-
collaboration with diverse research and industry partners. You will optimise selection and mating strategies to accelerate multi-trait genetic gain, and contribute to the development of elite hybrid combinations