Sort by
Refine Your Search
-
Listed
-
Employer
-
Field
-
Postdoctoral Research Associate in Global Environment Modelling of Soil Organic and Inorganic Carbon
. The project is aimed to improve our in-house developed process-based computer model and use it to represent the soil ecohydrological and biogeochemical interactions across various carbon and nitrogen soil pools
-
-scale, complex project environments. This project is part of an ambitious research program to integrate real-time sensing, AI-based control, and governance analytics into the future of infrastructure and
-
responsibilities will be to: contribute and co-lead the research program and milestones of the AEA Project explore new research for furthering scientific understandings, breakthroughs and impact, assist in
-
more about the Australian Centre for Robotics (ACFR), click here . In this role you will: work closely with a team of academics and researchers as part of world-leading research program develop new
-
FRS extract RNA from soil samples for metatranscriptomic sequencing perform metatranscriptomic sequencing of soil samples and downstream computational analysis to detect known and novel RNA viruses
-
seven schools, spanning engineering, computer science and project management, see the University of Sydney consistently rank amongst the best engineering universities in Australia and the
-
gastrointestinal disease. The role of Research Assistant reports to the Post-Doctoral Fellow and has no direct reports. Some key skills required: A degree or other tertiary qualification in Science, Health Science
-
looking for a Postdoctoral Research Associate who has: a PhD in a quantitative field (e.g., physics, mathematics, computer science) interest and experience in simulating and analyzing multivariate time
-
Research Associate in Child Psychology with specific skills in digital mental health and measurement to manage the Growing Minds Check-In (GMCI) program of research, a Flagship Trial of the Growing Minds
-
ambitious research program to investigate the intersection of plate tectonics, critical metals, and Earth's habitability by trying to better model the Earth’s surface evolution from 1800–500 million years ago