Robust State Estimation of Complex Multi-Object Systems. Conceptual advances will be made in the area of robust state estimation of complex systems. New design rules will be developed and published in the top international journals and major international conferences. The main benefit of this project will be its direct applications to industrial control problems in the military equipment and manufacturing industries, bio-engineering, and automobile industry. We also build a world class research ....Robust State Estimation of Complex Multi-Object Systems. Conceptual advances will be made in the area of robust state estimation of complex systems. New design rules will be developed and published in the top international journals and major international conferences. The main benefit of this project will be its direct applications to industrial control problems in the military equipment and manufacturing industries, bio-engineering, and automobile industry. We also build a world class research group at the University of New South Wales to focus attention on multi-object state estimation. There will be increased capacity for contract research, international collaboration with leading researchers in the area and high quality Ph.D. graduates in the field of Systems and Control.Read moreRead less
Decentralized Control Problems for Networked Systems. The conceptual advances to be made in the area decentralized control of networked systems.
New design rules for decentralized control in networked systems will be developed and published in the top international journals and major international conferences.
Also, a contribution of the project will be to produce high quality Ph.D. graduates in this area of control theory.
Uncertain Systems Theory applied to Nonlinear Robust Control and Filtering. Feedback control systems are becoming increasingly important in manufacturing industry, the automotive industry, defence applications as well as in many non-industrial applications such as the management of the environment or the economy. By developing new techniques for the design of high performance robust nonlinear controllers and filters which are widely applicable in industrial applications, this project will help m ....Uncertain Systems Theory applied to Nonlinear Robust Control and Filtering. Feedback control systems are becoming increasingly important in manufacturing industry, the automotive industry, defence applications as well as in many non-industrial applications such as the management of the environment or the economy. By developing new techniques for the design of high performance robust nonlinear controllers and filters which are widely applicable in industrial applications, this project will help make existing industrial technologies more efficient and make new industrial technologies feasible. Moreover, the research training carried out in the project will add to available a pool of experts in the areas of robust nonlinear control and filtering. Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668549
Funder
Australian Research Council
Funding Amount
$280,000.00
Summary
Major upgrade of the computing hardware and software for the widely used BioManager bioinformatic service. ANGIS has been an Australian national facility for bioinformatics since 1991, now with over 4000 users across 150 university schools or departments, government departments, hospitals and research institutes. The grant will provide the computer upgrade and software support needed to handle the enormous increases in database size and complexity and expand the service into new areas of bioinfo ....Major upgrade of the computing hardware and software for the widely used BioManager bioinformatic service. ANGIS has been an Australian national facility for bioinformatics since 1991, now with over 4000 users across 150 university schools or departments, government departments, hospitals and research institutes. The grant will provide the computer upgrade and software support needed to handle the enormous increases in database size and complexity and expand the service into new areas of bioinformatics. Bioinformatics is critical to much of modern biology, and the improvements will enhance research and data analysis in many areas of research, leveraging more value from the research being undertaken by users. Read moreRead less
Robust estimation of cardiac output and oxygen consumption from simple non-invasive physiological variables. We aim to develop robust mathematical and physiological models to estimate cardiac output and oxygen consumption of an exercising individual from simple non-invasive physiological parameters such as heart rate, respiration, body temperature and body movement (using multiple triaxial accelerometers).
The models developed will provide a better understanding of the human cardiovascular s ....Robust estimation of cardiac output and oxygen consumption from simple non-invasive physiological variables. We aim to develop robust mathematical and physiological models to estimate cardiac output and oxygen consumption of an exercising individual from simple non-invasive physiological parameters such as heart rate, respiration, body temperature and body movement (using multiple triaxial accelerometers).
The models developed will provide a better understanding of the human cardiovascular system response to exercise, and could be incorporated as part of a closed loop control system for cardiac pacemakers and/or heart assist devices.
Outcomes will include increased scientific knowledge, new robust models of the exercising cardiovascular /respiratory / thermoregulatory system and advanced biomedical instrumentation.
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Convex optimisation for control, signal processing and communication systems. Renewable control of complex systems, signal processing, telecommunication and in general any industries interested in these applications stand to benefit from our research. In particular, the automotive and defence industries stand to benefit from the nonlinear control design aspect of the proposed project outcomes. The
telecommunications industries, on the other hand, benefit from the signal processing and communicat ....Convex optimisation for control, signal processing and communication systems. Renewable control of complex systems, signal processing, telecommunication and in general any industries interested in these applications stand to benefit from our research. In particular, the automotive and defence industries stand to benefit from the nonlinear control design aspect of the proposed project outcomes. The
telecommunications industries, on the other hand, benefit from the signal processing and communications aspects. We also build a core expertise in optimisation and its applications in Australia by training PhD students and Postdoctoral researchers. The research collaborations will cement and maintain the international linkages which will improve applied research in AustraliaRead moreRead less
A novel framework for designing input excitation for system identification. Engineers need mathematical models describing the behaviour of the components they use in their design. This project aims at resolving some critical issues faced by the researchers developing cutting edge mathematical software for building such models.
Feedback Architectures with Parallel Communication Channels. Feedback control is an enabling, though often hidden, technology. For example, without control loops, cars, mining and manufacturing plants cannot operate in an efficient and safe manner. To reduce costs, there has been a trend to use general purpose communication systems, such as WiFi, for feedback control. These communication systems have only limited capacity and reliability. This can lead to performance degradation and system failu ....Feedback Architectures with Parallel Communication Channels. Feedback control is an enabling, though often hidden, technology. For example, without control loops, cars, mining and manufacturing plants cannot operate in an efficient and safe manner. To reduce costs, there has been a trend to use general purpose communication systems, such as WiFi, for feedback control. These communication systems have only limited capacity and reliability. This can lead to performance degradation and system failure. The current project aims at proposing novel robust networked control system architectures. Our results will be useful to allow industries to use standard communications technology for control, thus, alleviating costs associated with developing dedicated application specific communication infrastructure.Read moreRead less
Power Control and Scheduling for Cellular Communications. Australia is a major user of cellular communications technology with four 3G networks. There is huge public interest in core performance metrics including coverage, quality of service, power consumption and cost. The research covered by this proposal is aimed at improving the above performance metrics and hence achieving greater satisfaction from the Australian public in their wireless communication systems.
Development of Identification Methods for Nonlinear Dynamical Systems. It is widely recognized that nonlinear systems theory will mark a new era of control science in the coming decade, and will be used in various types of applications. Driven by such immense opportunities and needs, identification of nonlinear systems is emerging as a vital, active area of research. The success of this project will enhance Australia's leading role in the international control community. The training of the post ....Development of Identification Methods for Nonlinear Dynamical Systems. It is widely recognized that nonlinear systems theory will mark a new era of control science in the coming decade, and will be used in various types of applications. Driven by such immense opportunities and needs, identification of nonlinear systems is emerging as a vital, active area of research. The success of this project will enhance Australia's leading role in the international control community. The training of the postdoctoral research associates will generate the expertise needed to maintain the involvement of the coming generation in cutting-edge technological advancement. The project will strengthen research activities in Australia through strong international collaborations.Read moreRead less