Investigation of novel magneto-optic materials exhibiting high Faraday figure of merit. Magneto-optical materials have a wide range of potential applications in consumer products, telecommunications and defence. Nanotechnologies based on these materials offer an even broader range of emerging applications. Understanding and participating in the development of magneto-optic technologies will therefore be critical to maintaining Australia's knowledge base and expertise in future technological adv ....Investigation of novel magneto-optic materials exhibiting high Faraday figure of merit. Magneto-optical materials have a wide range of potential applications in consumer products, telecommunications and defence. Nanotechnologies based on these materials offer an even broader range of emerging applications. Understanding and participating in the development of magneto-optic technologies will therefore be critical to maintaining Australia's knowledge base and expertise in future technological advances. Given the early stages of development of these technologies, Australia's expertise in material science and the patent rights held by Australian companies in this area, Australia has the opportunity to make major contributions to this field, and the potential to capitalise on the application of these technologies in niche markets.Read moreRead less
Investigating the Effects of Network-Induced Delays on Networked Control Systems. Networked control is the current trend for industrial automation. The results of this project will be the first in the world to contribute directly to a deeper understanding of both negative and positive effects of network-induced delays on networked control systems. It will firmly place Australia at the forefront of this research by developing cutting edge technology for reliability and efficiency of industrial ne ....Investigating the Effects of Network-Induced Delays on Networked Control Systems. Networked control is the current trend for industrial automation. The results of this project will be the first in the world to contribute directly to a deeper understanding of both negative and positive effects of network-induced delays on networked control systems. It will firmly place Australia at the forefront of this research by developing cutting edge technology for reliability and efficiency of industrial networked-based control systems. This novel frontier technology will result in cost-saving and improved productivity for Australian industries, e.g. manufacturing industries, power stations, processing industries, automotive industries, vehicular networks and locomotives.Read moreRead less
Nonvolatile Dynamic Memories. This project will expand the knowledge base that will support the development of a frontier technology (superior memory chips) to be undertaken by an Australian based start-up company (QsRAM). The project will provide an excellent environment for training researchers who will be able to lead development of frontier technologies. It will also generate additional intellectual property with high potential to spawn new commercial activities. Direct financial benefit fro ....Nonvolatile Dynamic Memories. This project will expand the knowledge base that will support the development of a frontier technology (superior memory chips) to be undertaken by an Australian based start-up company (QsRAM). The project will provide an excellent environment for training researchers who will be able to lead development of frontier technologies. It will also generate additional intellectual property with high potential to spawn new commercial activities. Direct financial benefit from any commercialization of the intellectual property can be assured through standard practices in the semiconductor industry (license fees, royalties, product design, etc.)Read moreRead less
Variable Structure Control Systems in Networked Environments. This project will be the first in the world to lay the foundation for a new theory for understanding and designing new variable structure control systems in the networked environments, which is in great need due to increasing use of shared communication networks in modern industrial systems. It will firmly place Australia at the forefront of this research by developing a cutting edge technology for improving reliability and efficiency ....Variable Structure Control Systems in Networked Environments. This project will be the first in the world to lay the foundation for a new theory for understanding and designing new variable structure control systems in the networked environments, which is in great need due to increasing use of shared communication networks in modern industrial systems. It will firmly place Australia at the forefront of this research by developing a cutting edge technology for improving reliability and efficiency of industrial variable structure control systems in the networked environments, hence resulting in cost-saving and improved productivity for industry. It will provide training for new leading researchers specialised in this new theory and technology.Read moreRead less
Development of a High Integrity Airborne Navigation Sensor for Aviation Communities using Terrestrial Based Infrastructure. The widespread adoption of GPS for aviation, which will allow safer and cheaper air-travel, is hindered by the lack of integrity (truth) information in the system. This research will develop new methodologies, based on low-cost MEMS sensors, to improve the integrity availability of the GPS when augmented with the Ground-based Regional GPS Augmentation System (GRAS). These m ....Development of a High Integrity Airborne Navigation Sensor for Aviation Communities using Terrestrial Based Infrastructure. The widespread adoption of GPS for aviation, which will allow safer and cheaper air-travel, is hindered by the lack of integrity (truth) information in the system. This research will develop new methodologies, based on low-cost MEMS sensors, to improve the integrity availability of the GPS when augmented with the Ground-based Regional GPS Augmentation System (GRAS). These methodologies will be used in the development of next generation airborne navigation sensors. The work builds on the world-leading position that Airservices Australia has made in the development of the GRAS, the navigation expertise of GPSat Systems and the GPS expertise of the QUT.Read moreRead less
Vertically-aligned Single-walled Carbon Nanotube and Quantum Dot Junctions: A New Concept for Optically-tunable Three-dimensional Information Storage and Processing. The proposed study will have a direct impact to computer science and engineering and may provide new routes for application-oriented optoelectronic devices with outstanding performance. As industry gets closer to the realization of nanoscale applications, there will be a need of people who are educated in nanoscience and nanotechnol ....Vertically-aligned Single-walled Carbon Nanotube and Quantum Dot Junctions: A New Concept for Optically-tunable Three-dimensional Information Storage and Processing. The proposed study will have a direct impact to computer science and engineering and may provide new routes for application-oriented optoelectronic devices with outstanding performance. As industry gets closer to the realization of nanoscale applications, there will be a need of people who are educated in nanoscience and nanotechnology. This project will involve postdoctoral, graduate, undergraduate, high school, and minority students from multidisciplinary backgrounds to work together on the development of a common platform. Read moreRead less
Development of an Automated Control System for Selection of Optimal Process Parameters in Welding Using Solar Energy Concentration. The objective of this proposed research is to develop an intelligent control system for selection of optimal process parameters in welding using solar energy concentration. This investigation endeavours to address the complex interaction between welding process parameters and quality of weld. The results of the work will lead to signicant advancement of knowledge ....Development of an Automated Control System for Selection of Optimal Process Parameters in Welding Using Solar Energy Concentration. The objective of this proposed research is to develop an intelligent control system for selection of optimal process parameters in welding using solar energy concentration. This investigation endeavours to address the complex interaction between welding process parameters and quality of weld. The results of the work will lead to signicant advancement of knowledge in automation of the welding process and will generate global interest due to its innovation and applications in automotive manufacturing and steel fabrication industries. The research activity proposed in this application is expected to further strengthen the links between QUT and Mokpo National University and will enhance the capabilities of both universities in attracting funding from local manufacturing industries.Read moreRead less
Development of Internet-based Kinematic GPS Solutions for Local and Regional Positioning Services. This interdisciplinary project develops a highly novel total network strategy for real-time kinematic GPS positioning services using the Internet communication protocols for data transmission. The proposed system is technically superior to existing network-based differential GPS (DGPS) systems, by providing positioning services at different accuracy levels (metre to centimetre) with reduced operati ....Development of Internet-based Kinematic GPS Solutions for Local and Regional Positioning Services. This interdisciplinary project develops a highly novel total network strategy for real-time kinematic GPS positioning services using the Internet communication protocols for data transmission. The proposed system is technically superior to existing network-based differential GPS (DGPS) systems, by providing positioning services at different accuracy levels (metre to centimetre) with reduced operational cost to users. The research focuses on improved network operations and processing, along with developing user-specific algorithms. The outcomes are expected to provide significant opportunities for both real time and near-real-time kinematic positioning applications and commercialisations of such services, in urban and regional areas of Australia.Read moreRead less
An automated 3D model-based object recognition system. A novel, practical 3D vision system is proposed as a platform for fundamental applied research in 3D data acquisition, object modelling and object recognition. The significance of the vision system lies in the advancement of knowledge in three key areas of computer vision, registration, recognition and error propagation. The result is a system capable of sensing, modelling and identifying arbitrarily shaped free-form objects in a scene, an a ....An automated 3D model-based object recognition system. A novel, practical 3D vision system is proposed as a platform for fundamental applied research in 3D data acquisition, object modelling and object recognition. The significance of the vision system lies in the advancement of knowledge in three key areas of computer vision, registration, recognition and error propagation. The result is a system capable of sensing, modelling and identifying arbitrarily shaped free-form objects in a scene, an attribute lacking in current systems. Such a system can provide substantial economic benefits to industrial procedures such as grasp planning and quality control.Read moreRead less
Automated Diagnosis of Faults in Rotating Machinery using Adaptive Network Based Fuzzy Inference. The long-term integrity of engineering assets depends on the quality of their maintenance which runs into billions of dollars per year in Australia. This project aims to develop a new fundamental automated technique for the detection and diagnosis of machinery faults. The innovation lies in the ability of this technique to not depend on knowledge of fault components in the discrete wavelet packet ....Automated Diagnosis of Faults in Rotating Machinery using Adaptive Network Based Fuzzy Inference. The long-term integrity of engineering assets depends on the quality of their maintenance which runs into billions of dollars per year in Australia. This project aims to develop a new fundamental automated technique for the detection and diagnosis of machinery faults. The innovation lies in the ability of this technique to not depend on knowledge of fault components in the discrete wavelet packet analysis. All other work conducted to date depends on knowledge of these components and their location. The results of this work will vastly improve the costly manually based diagnostics procedures in the maintenance of plant and industrial assets.Read moreRead less