Sort by
Refine Your Search
-
Listed
-
Program
-
Employer
- Monash University
- University of Adelaide
- Curtin University
- RMIT UNIVERSITY
- RMIT University
- UNIVERSITY OF MELBOURNE
- University of Melbourne
- University of New South Wales
- Edith Cowan University
- Flinders University
- Macquarie University
- Queensland University of Technology
- UNIVERSITY OF SYDNEY
- University of South Australia
- University of Sydney
- 5 more »
- « less
-
Field
-
experienced in meaningful community engagement, with a genuine interest in addressing problematic narratives for Aboriginal peoples. Your critical thinking skills help you navigate complex issues with ease
-
hypergraph models of data, data complexity, structural properties of graph and hypergraph classes, algorithmic consequences, and applications. As such, the successful candidate must either have a good
-
also resolve routine matters related to responsibilities and collaborate with others to resolve complex matters. Your key responsibilities will be to: conduct research on PET scans in neuroendocrine
-
tools to tackle some of the most complex questions in brain science. As a Level A research-only academic, you will contribute to projects that integrate computational models with experimental neuroimaging
-
of high-quality, productivity-driven research networks across RMIT and with local and national, internal and external partners. You will be expected to engage in high quality research projects, to achieve
-
research culture Represent the JdLC in national and international networks Research Develop an internationally competitive research program in surface science. Publish in high-impact journals and secure
-
the development of high-quality, productivity-driven research networks across RMIT and with local and national, internal and external partners. You will be expected to engage in high quality research projects
-
include generating and analysing complex microbiome “omic” datasets to create an inventory of microbial genomes and lists of expressed metabolic features that are signature for the keystone microorganisms
-
and addressing technical challenges in estimating rare, high-impact occurrences. Developing analytical tools for policy evaluation, including counterfactual analysis, forecasting, and network
-
and addressing technical challenges in estimating rare, high-impact occurrences. Developing analytical tools for policy evaluation, including counterfactual analysis, forecasting, and network