The Systems and Control Research Group conducts cross-disciplinary activities with applications drawn from any discipline where dynamic systems are relevant. In engineering, emphasis is on physical systems, but our research also applies the methodology and theory of algorithms and design widely across areas like macroeconomics, finance and actuarial studies.
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Our research interests
Our research interests in the Systems and Control Group include collaborative activity with a range of Australian and international colleagues that span across many areas:
Active balancing of rotating machinery
Automated Ecg signal processing and interpretation
Active balancing of rotating machinery
Class D amplifiers
Active balancing of rotating machinery
Control of power systems
Active balancing of rotating machinery
Econometrics
Active balancing of rotating machinery
For detailed descriptions, see Biomedical Systems Laboratory
Active balancing of rotating machinery
Guidance
Active balancing of rotating machinery
Hybrid dynamical systems
Active balancing of rotating machinery
Mechatronic systems and servo systems
Active balancing of rotating machinery
Medical information systems
Active balancing of rotating machinery
Medical instrumentation
Active balancing of rotating machinery
Mobile robots coordination and control
Active balancing of rotating machinery
Modelling of excitable tissues
Active balancing of rotating machinery
Networked control systems
Active balancing of rotating machinery
Neural coding
Active balancing of rotating machinery
Neural control of cardiac function
Active balancing of rotating machinery
Neural control of renal function
Active balancing of rotating machinery
Neuroimaging
Active balancing of rotating machinery
Physiological Systems Modelling
Active balancing of rotating machinery
Quantum network analysis and synthesis
Active balancing of rotating machinery
Quantum systems and quantum feedback control
Active balancing of rotating machinery
Real-time control and controller implementation
Dr Raymond Eaton
Active balancing of rotating machinery
Reconfigurable computing using networks on chip
Active balancing of rotating machinery
Renewable Energy and Smart Grids
Active balancing of rotating machinery
Robust control and filtering
Active balancing of rotating machinery
Signal processing
Active balancing of rotating machinery
State estimation and control via telecommunication networks
Active balancing of rotating machinery
Stochastic control
Active balancing of rotating machinery
Stochastic modelling
Active balancing of rotating machinery
Stochastic systems and stochastic control
Active balancing of rotating machinery
System Identification
Active balancing of rotating machinery
Telemedicine remote monitoring
Systems and control research projects
We conduct research projects across robotics, neuroimaging, neural coding, econometrics and several other diverse areas. Our work contributes to solving challenges across important areas like energy storage, technology optimisation and biomedical science.
