Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668446
Funder
Australian Research Council
Funding Amount
$530,000.00
Summary
Nano-positioning facility for nano-scale measurement and manipulation. Nanotechnology is the science of understanding and control of matter at dimensions of 100 nanometers or less. Encompassing nanoscale science, engineering, and technology, nanotechnology involves imaging, measuring, modeling, and manipulation of matter at this level of precision. An important aspect of research in nanotechnology involves precision control and manipulation of devices and materials at a nanoscale, i.e. nanoposi ....Nano-positioning facility for nano-scale measurement and manipulation. Nanotechnology is the science of understanding and control of matter at dimensions of 100 nanometers or less. Encompassing nanoscale science, engineering, and technology, nanotechnology involves imaging, measuring, modeling, and manipulation of matter at this level of precision. An important aspect of research in nanotechnology involves precision control and manipulation of devices and materials at a nanoscale, i.e. nanopositioning. The primary goal of this proposal is the establishment of an experimental nanopositioning research facility to enable the development of a new generation of nanopositioners. Establishment of the facility will give Australia's nanotechnology researchers a unique enabling facility in this high-tech field.Read moreRead less
Development of Robust Control Systems for Magneto-Rheological Fluid-Based Smart Structures. Possessing the ability to withstand such destructive dynamic loading as gusty winds, fierce waves, and earthquakes, the smart structures of the future will enjoy the unprecedented safety and comfort bringing to their occupants and contents. This will directly benefit Australians. The development of the smart structure technology will also give domestic consultants the ability to compete internationally ....Development of Robust Control Systems for Magneto-Rheological Fluid-Based Smart Structures. Possessing the ability to withstand such destructive dynamic loading as gusty winds, fierce waves, and earthquakes, the smart structures of the future will enjoy the unprecedented safety and comfort bringing to their occupants and contents. This will directly benefit Australians. The development of the smart structure technology will also give domestic consultants the ability to compete internationally, resulting in obvious economic dividends and advantages benefiting Australia. Moreover, a successful effort leading to a major breakthrough of the important area of seismic protection research will have a significant impact far beyond the border of this country.Read moreRead less
Efficient Strategies for Coordinating Autonomous Vehicles for Maximising Australia's Waterfront Productivity. This project will lift the productivity of container terminals by enabling the effective deployment of autonomous vehicles in large numbers. The project outcomes of practically deployable and scalable algorithms, realised as live software, will significantly enhance Patrick Stevedores Holdings' world leading technology and the potential of such automation systems to revolutionise materia ....Efficient Strategies for Coordinating Autonomous Vehicles for Maximising Australia's Waterfront Productivity. This project will lift the productivity of container terminals by enabling the effective deployment of autonomous vehicles in large numbers. The project outcomes of practically deployable and scalable algorithms, realised as live software, will significantly enhance Patrick Stevedores Holdings' world leading technology and the potential of such automation systems to revolutionise material handling around the globe. Beyond the benefits of technology commercialisation, the project will also benefit Australia economically through extending its leading role in developing autonomous systems for material handling, enhancing the frontier technologies for building Australian industries, and alleviating looming capacity constraints.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347024
Funder
Australian Research Council
Funding Amount
$140,000.00
Summary
Research facility in micromanipulation. The aim of the program is to establish a unique joint facility between Monash and Deakin for micromanipulation research. The proposed facility will consist of complex/intelligent micromanipulation systems capable of motion accuracy of 0.01-0.1 micrometer (10-100 nm). This will be the only facility of its kind in Australia and will provide a key enabling technology in the research and development of advanced micromanipulation systems, robotic-assisted mic ....Research facility in micromanipulation. The aim of the program is to establish a unique joint facility between Monash and Deakin for micromanipulation research. The proposed facility will consist of complex/intelligent micromanipulation systems capable of motion accuracy of 0.01-0.1 micrometer (10-100 nm). This will be the only facility of its kind in Australia and will provide a key enabling technology in the research and development of advanced micromanipulation systems, robotic-assisted microsurgery, sensory-based and intelligent control of complex systems, micro assembly/manufacturing, telerobotics/telesurgery, kinematics and dynamics of micromanipulators, laser-based control, and biotechnology. The facility will support and enhance a number of high-quality, current and future research projects with recognised potential.Read moreRead less
Use of CT Scanned Data in automation of Carcass Processing. Meat production is important to the Australian economy. The industry is threatened by inability to obtain sufficient labor for meat processing. Automation represents a potential solution, but brings challenges. Piecemeal automation has produced haphazard interspersing of automated and manual workstations. In meat processing automation, the greatest benefits are obtained when the process is integrated and data is passed down the process ....Use of CT Scanned Data in automation of Carcass Processing. Meat production is important to the Australian economy. The industry is threatened by inability to obtain sufficient labor for meat processing. Automation represents a potential solution, but brings challenges. Piecemeal automation has produced haphazard interspersing of automated and manual workstations. In meat processing automation, the greatest benefits are obtained when the process is integrated and data is passed down the process line. The outcomes of this project, a practically deployable robotic system, enabling methodologies and a common database, represent a big step towards integrated meat processing and bring enormous economic and health benefits to Australian community.Read moreRead less
A Robotic System for Steel Bridge Maintenance. This research will bring enormous benefits to Australian community by significantly reducing the environmental impact of civil infrastructure maintenance operations, and improving the working conditions of maintenance workers by minimising their exposure to dust containing hazardous materials. Bridges are a key link that supports rural communities. Besides the 426 steel road bridges in NSW, many hundreds steel road/rail bridges and other steel infra ....A Robotic System for Steel Bridge Maintenance. This research will bring enormous benefits to Australian community by significantly reducing the environmental impact of civil infrastructure maintenance operations, and improving the working conditions of maintenance workers by minimising their exposure to dust containing hazardous materials. Bridges are a key link that supports rural communities. Besides the 426 steel road bridges in NSW, many hundreds steel road/rail bridges and other steel infrastructure in Australia need regular paint stripping and repainting. Australia will gain significant economic and health benefits from commercialising the advanced technologies developed by this project, and become a world leader in developing autonomous systems for infrastructure maintenance.Read moreRead less
Haptic exploration and manipulation of micro/nano scale environment. The proposed research is novel and innovative in character and it has potential benefits in many frontier areas utilising micro/nano manipulation systems. These include micromanufacturing and instrumentation, microbiology, microsurgery and nanotechnology. The outcomes of this project will add to the growth of world-class Australian engineering science, and consolidate Australia's position in innovative technologies and internat ....Haptic exploration and manipulation of micro/nano scale environment. The proposed research is novel and innovative in character and it has potential benefits in many frontier areas utilising micro/nano manipulation systems. These include micromanufacturing and instrumentation, microbiology, microsurgery and nanotechnology. The outcomes of this project will add to the growth of world-class Australian engineering science, and consolidate Australia's position in innovative technologies and international R&D. This highly challenging project will provide training for postdoctorate researchers, postgraduate and honours students. These researchers will gain expertise in many areas including micro/nano manipulation, sensing and control, system design and analysis, virtual reality and experimental techniques.Read moreRead less
High-Fidelity Modelling for Robotic-Assisted Minimally Invasive Needle Insertion. This project will develop robotic-assisted needle insertion and greatly improve minimally invasive surgery. It will also enhance the establishment of intellectual property for Australian medicine and produce important benefits to the healthcare sector. The proposed symbiotic integration of the systems will advance modelling technologies, and further create new capabilities for a wide range of science and engineerin ....High-Fidelity Modelling for Robotic-Assisted Minimally Invasive Needle Insertion. This project will develop robotic-assisted needle insertion and greatly improve minimally invasive surgery. It will also enhance the establishment of intellectual property for Australian medicine and produce important benefits to the healthcare sector. The proposed symbiotic integration of the systems will advance modelling technologies, and further create new capabilities for a wide range of science and engineering applications. The established methodologies and systems will also provide great potential benefits in many other areas, including microbiology, life sciences and bio/nano-technology. The project's outcomes will further consolidate Australia's position in innovative technologies and international research and development.Read moreRead less