648 postdoc-in-distributed-systems-and-controls positions at Monash University in Australia
Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
- Computer Science
- Medical Sciences
- Economics
- Engineering
- Business
- Arts and Literature
- Linguistics
- Law
- Humanities
- Materials Science
- Science
- Biology
- Mathematics
- Education
- Psychology
- Philosophy
- Design
- Environment
- Earth Sciences
- Chemistry
- Social Sciences
- Sports and Recreation
- Electrical Engineering
- 13 more »
- « less
-
Creating efficient and beneficial user agent interaction is a challenging problem. Challenges include improving performance and trust and reducing over and under reliance. We investigate
-
extraordinary ideas - and the people who discover them The Opportunity Monash Law is seeking to appoint two outstanding legal practitioners to join our clinical legal education team as Level B Lecturers
-
The Level A Research Fellow is responsible for advancing the University’s research objectives by contributing to a defined project in the field of applied econometrics. This position supports the development
-
extraordinary ideas - and the people who discover them The Opportunity The Level A Research Fellow is responsible for advancing the research objectives of the University by contributing to defined research
-
alignment with Australian Accounting Standards, and help enhance systems and processes, while fostering strong relationships across the Monash finance network to enable efficient and effective service
-
who discover them The Opportunity Are you a skilled research professional with a passion for driving innovation in antimicrobial resistance (AMR)? The Centre to Impact AMR is seeking an experienced
-
Machine learning, dynamical systems theory, control theory, signal processing, network theory, neuroscience are all relevant and a student should have strong knowledge in at least one of these and a
-
The energy transition to net zero is in full swing! We at Monash University's Faculty of Information Technology (FIT) are in the unique position that we support the transition across an immensely
-
following failures of command or task execution by robots [Baker, 2018, Esterwood 2022, Park 2023], little work has been done to estimate the effects of direct disobedience on human-robot trust and joined
-
while inferring underlying physiological changes. Required knowledge Machine learning, dynamical systems theory, control theory, signal processing, time series analysis, neuroscience are all relevant and