Robust Control and System Identification of Highly Resonant Systems. The modelling and control of complex and highly resonant systems is of increasing engineering importance due to their occurence in a wide variety of emerging areas in aerospace, acoustics, robotics and ``smart'' structures. At the same time, effective tools tailored towards identifying the necessary models, and synthesising the necessary controllers for these systems are in their infancy. This arises from special difficulties ....Robust Control and System Identification of Highly Resonant Systems. The modelling and control of complex and highly resonant systems is of increasing engineering importance due to their occurence in a wide variety of emerging areas in aerospace, acoustics, robotics and ``smart'' structures. At the same time, effective tools tailored towards identifying the necessary models, and synthesising the necessary controllers for these systems are in their infancy. This arises from special difficulties encountered via the high dimensionality of the structures involved. This research project will employ new methods from the fields of robust control and multivariable system identification theory to lead to new and high performance solutions in this area.Read moreRead less
Advanced Control of Dual-Stage Hard Disk Drives. The project is of significant scientific merit, resulting in solutions to open problems in control of dual-stage hard disk drive systems. This will contribute to the maintenance of Australia's international research profile, help maintain its internal research vitality and also enhance the advanced engineering base of the country. An important benefit of this research is the direct application of developed ideas to the next generation data storage ....Advanced Control of Dual-Stage Hard Disk Drives. The project is of significant scientific merit, resulting in solutions to open problems in control of dual-stage hard disk drive systems. This will contribute to the maintenance of Australia's international research profile, help maintain its internal research vitality and also enhance the advanced engineering base of the country. An important benefit of this research is the direct application of developed ideas to the next generation data storage systems. The completion of this project will directly benefit Australia's developing high-tech industries.Read moreRead less
Robust Control of Electrostatic Microactuators. This proposal seeks to address a number of fundamental problems associated with electrostatic microactuators that form an integral part of microelectromechanical systems (MEMS). Performance of these microactuators is limited due to the presence of a specific form of nonlinearity in their dynamics. In this research advanced and innovative feedback controllers will be developed to improve operational performance of such microactuators. The global ME ....Robust Control of Electrostatic Microactuators. This proposal seeks to address a number of fundamental problems associated with electrostatic microactuators that form an integral part of microelectromechanical systems (MEMS). Performance of these microactuators is limited due to the presence of a specific form of nonlinearity in their dynamics. In this research advanced and innovative feedback controllers will be developed to improve operational performance of such microactuators. The global MEMS market is projected to increase from $10B in 2005 to $40B in 2015. This project will enhance Australia's standing in this important high-tech field.
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