The role of non-visual cues in regulating perception and skilled movement. This project aims to investigate the impact of non-visual sensory information on what we see and how we move. The project intends to enhance understandings of how information from our senses is combined and how this might inform the development of simulators which are increasingly used as tools for training. Expected outcomes include methods for optimising the design of simulator technologies used in a wide range of medic ....The role of non-visual cues in regulating perception and skilled movement. This project aims to investigate the impact of non-visual sensory information on what we see and how we move. The project intends to enhance understandings of how information from our senses is combined and how this might inform the development of simulators which are increasingly used as tools for training. Expected outcomes include methods for optimising the design of simulator technologies used in a wide range of medical, military and industrial training applications.Read moreRead less
The sensory prerequisites of effective simulator-based pilot training. This Project aims to investigate the use of head-mounted virtual reality systems for training, with specific focus on the aviation industry. The Project expects to improve our understanding of how pilots combine information from their sensory systems in order to successfully operate an aircraft. Expected outcomes include methods for specifying the optimal design of simulators intended to prepare pilots for a specific task, wi ....The sensory prerequisites of effective simulator-based pilot training. This Project aims to investigate the use of head-mounted virtual reality systems for training, with specific focus on the aviation industry. The Project expects to improve our understanding of how pilots combine information from their sensory systems in order to successfully operate an aircraft. Expected outcomes include methods for specifying the optimal design of simulators intended to prepare pilots for a specific task, with the ultimate goal of developing and validating a prototype training device. The outcomes are expected to benefit many areas of pilot training by improving the design and optimising the cost of simulator technologies at a time when the aviation industry is struggling to meet the global demand for new pilots.Read moreRead less
Automating real-time feedback in virtual reality training through data mining. This project will use data mining techniques to develop a real-time feedback system that can be used in virtual reality training environments. This system will not only improve trainees' learning, it will also lead to more efficient use of virtual reality training in industries such as aviation, aerospace, mining, health and emergency services.
Industrial Transformation Training Centres - Grant ID: IC180100005
Funder
Australian Research Council
Funding Amount
$4,889,410.00
Summary
ARC Training Centre in Surface Engineering for Advanced Materials. The ARC Training Centre in Surface Engineering for Advanced Materials aims to provide pathways for job creation and a high quality workforce in manufacturing. Surface engineering for advanced materials is a core need in all manufacturing sectors and controls the efficiency, productivity and sustainability of Australian industry. This Centre will integrate industry-university cooperation for applied training within an industrial s ....ARC Training Centre in Surface Engineering for Advanced Materials. The ARC Training Centre in Surface Engineering for Advanced Materials aims to provide pathways for job creation and a high quality workforce in manufacturing. Surface engineering for advanced materials is a core need in all manufacturing sectors and controls the efficiency, productivity and sustainability of Australian industry. This Centre will integrate industry-university cooperation for applied training within an industrial setting and will cover a spectrum of applications ranging from thin films to thick coatings and additive layered materials. The Centre will pursue outcomes that are reflected in terms of industry-fit researchers and deliver commercial benefits for industry.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC180100024
Funder
Australian Research Council
Funding Amount
$4,000,000.00
Summary
ARC Training Centre for Medical Implant Technologies. The ARC Training Centre for Medical Implant Technologies aims to train a new generation of interdisciplinary engineers and to transform the orthopaedic and maxillofacial implant industry in Australia. In collaboration with industry, universities and hospitals, the Centre will build a dynamic training environment for interdisciplinary engineers to develop and evaluate personalised implants and surgeries. It will create new networks, internatio ....ARC Training Centre for Medical Implant Technologies. The ARC Training Centre for Medical Implant Technologies aims to train a new generation of interdisciplinary engineers and to transform the orthopaedic and maxillofacial implant industry in Australia. In collaboration with industry, universities and hospitals, the Centre will build a dynamic training environment for interdisciplinary engineers to develop and evaluate personalised implants and surgeries. It will create new networks, international collaborations and a generation of industry-ready researchers critical for growing Australia’s industry. The advances in materials and savings in time for procedures will reduce costs.
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Microengineering of nonlinear optical media with ultrafast light. This project aims to demonstrate a new technique to modify nonlinear optical response of ferroelectrics and nonlinear semiconductors on the microscale. This all-optical technique employs the interaction of ultrashort laser pulses with matter to alter its nonlinear properties and is reinforced with our own method of Cherenkov frequency generation for in situ monitoring of the nonlinearity engineering process. The technique offers a ....Microengineering of nonlinear optical media with ultrafast light. This project aims to demonstrate a new technique to modify nonlinear optical response of ferroelectrics and nonlinear semiconductors on the microscale. This all-optical technique employs the interaction of ultrashort laser pulses with matter to alter its nonlinear properties and is reinforced with our own method of Cherenkov frequency generation for in situ monitoring of the nonlinearity engineering process. The technique offers a versatile approach to fabricate nonlinear photonic structures for the application in novel light sources, optical signal processing and pulse compression. Innovative ideas emanating from the project have great potential for commercialisation and will enhance Australia's reputation in the field of nonlinear photonics.Read moreRead less
Managing light in nonlinear photonic structures. In this project we investigate the propagation of light in nonlinear optical crystals, that is media with engineered nonlinear optical properties. Innovative ideas emanating from this project may find practical application in communication technologies and will strengthen the reputation of Australia in the field of nonlinear photonics.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100003
Funder
Australian Research Council
Funding Amount
$318,900.00
Summary
Vector network analyser suite for advanced terahertz materials and devices. This project aims to establish terahertz measurement capabilities to further Australia's strength and momentum in terahertz research. This will comprise of two terahertz extension modules, working with a dedicated vector-network analyser, and high-precision probes and probe station. The project will enable point-feeding, monochromatic, coherent, and fine spectral-resolution measurement at an atmospheric window of 220-330 ....Vector network analyser suite for advanced terahertz materials and devices. This project aims to establish terahertz measurement capabilities to further Australia's strength and momentum in terahertz research. This will comprise of two terahertz extension modules, working with a dedicated vector-network analyser, and high-precision probes and probe station. The project will enable point-feeding, monochromatic, coherent, and fine spectral-resolution measurement at an atmospheric window of 220-330 GHz. The capabilities are essential for development of two-dimensional materials, active components, waveguides, and antennas towards a common goal of efficient integrated terahertz devices and systems. The project will serve emerging terahertz applications including standoff imaging and short-range high-speed data transmission. This will have broad impact in the areas of surveillance, biomedicine, security, and public safety and well-being.Read moreRead less
Engineering high-efficiency all-dielectric antennas for terahertz channels. This project aims to create unconventional antenna platforms to support terahertz links. The project expects to deliver high-efficiency, high-gain dielectric resonator antennas and dielectric rod antenna arrays fed by dielectric wave-guides. The expected outcomes of this project will build critical components for future terahertz communication infrastructure. These antennas will support demands in point-to-point wireless ....Engineering high-efficiency all-dielectric antennas for terahertz channels. This project aims to create unconventional antenna platforms to support terahertz links. The project expects to deliver high-efficiency, high-gain dielectric resonator antennas and dielectric rod antenna arrays fed by dielectric wave-guides. The expected outcomes of this project will build critical components for future terahertz communication infrastructure. These antennas will support demands in point-to-point wireless transmission between mobile base stations, within data centres, and at information kiosks.Read moreRead less
Wideband Strongly-Truncated Composite Cavity-Resonator Antennas. A rapidly growing demand for fast wireless services calls for wideband communication systems with wideband antennas, which are compact, aesthetically appealing and inexpensive, yet have good performance. With novel concepts, this project aims to produce a new class of antennas that deliver impressive performance (bandwidth and gain) while taking up a dramatically reduced area in a way that was impossible before, increasing a figure ....Wideband Strongly-Truncated Composite Cavity-Resonator Antennas. A rapidly growing demand for fast wireless services calls for wideband communication systems with wideband antennas, which are compact, aesthetically appealing and inexpensive, yet have good performance. With novel concepts, this project aims to produce a new class of antennas that deliver impressive performance (bandwidth and gain) while taking up a dramatically reduced area in a way that was impossible before, increasing a figure-of-merit to up to seven times the state-of-the-art. Their planar geometry and simplicity lead to low cost. This is expected to create new knowledge, design methods and examples, prototypes, test results and guidelines required to design, optimise and make these versatile antennas for emerging robust broadband wireless systems.Read moreRead less