Smart design technology enabling the mid-infrared revolution. While mid-infrared (MIR) lasers have become indispensable to key industries ranging from research and healthcare to defence, industrial deployment of this technology has been hampered by the lack of cost-effective MIR optical fibres. This project aims to overcome this barrier through the creation of an innovative design toolkit for the fabrication of complex optical fibre structures. This efficient and commercially viable concept-to-m ....Smart design technology enabling the mid-infrared revolution. While mid-infrared (MIR) lasers have become indispensable to key industries ranging from research and healthcare to defence, industrial deployment of this technology has been hampered by the lack of cost-effective MIR optical fibres. This project aims to overcome this barrier through the creation of an innovative design toolkit for the fabrication of complex optical fibre structures. This efficient and commercially viable concept-to-manufacture development process will pave the way towards the MIR fibre technology revolution and will yield significant economic benefits spanning industrial process controls and environmental monitoring to hazardous chemical detection and biological sensing.Read moreRead less
Characterising satellites using un-resolved optical observations . Space situational awareness is a critical priority for Australian national security and the commercial space sector as the economy is investing in space. Space debris is a growing international threat to all major economies that rely on space for communications and defence. This project will understand how defunct satellites degrade over time to produce space debris. To accomplish this the project will collaborate with the Polish ....Characterising satellites using un-resolved optical observations . Space situational awareness is a critical priority for Australian national security and the commercial space sector as the economy is investing in space. Space debris is a growing international threat to all major economies that rely on space for communications and defence. This project will understand how defunct satellites degrade over time to produce space debris. To accomplish this the project will collaborate with the Polish Space Agency to employ low resolution spectroscopy to measure the surface degradation of geostationary satellites. Read moreRead less
An investigation of novel Microelectromechanical Systems based technologies for visible/near infra-red spectroscopic imaging. This project will develop new spectroscopic imaging technologies that make possible low-cost, portable instruments with enhanced performance, and that enable new applications. Examples include on-farm precision agriculture, skin cancer detection, food security and processing, airport security, pollution monitoring and industrial process control.
Experimental validation of the strain invariant failure theory for carbon/epoxy composites. The project will be of national and international benefit, through providing a validated, enhanced design capability for advanced composite materials. Greater depth of understanding of such materials will allow more efficient structures to be designed in applications requiring high strength and stiffness, low weight, and resistance to corrosion and fatigue. Such applications include the aerospace, offshor ....Experimental validation of the strain invariant failure theory for carbon/epoxy composites. The project will be of national and international benefit, through providing a validated, enhanced design capability for advanced composite materials. Greater depth of understanding of such materials will allow more efficient structures to be designed in applications requiring high strength and stiffness, low weight, and resistance to corrosion and fatigue. Such applications include the aerospace, offshore and mining industries. There are, therefore, far-reaching benefits in industries important to Australia. In addition, the reputation of the Australian aerospace research industry will be promoted through a collaborative association with Boeing, a world leader in development of commercial aircraft.Read moreRead less
Innovative solutions to enhance space situational awareness. This project seeks to significantly advance Australia's space situational awareness by researching advanced orbit prediction techniques. The development of novel space object orbit prediction techniques will greatly improve collision warnings for satellite operators that provide essential space-based services to Australian Government and industries.
Adaptive multispectral imaging system for remote sensing applications. The many applications of remote sensing include environmental/crop monitoring, oil/mineral exploration, and aerospace/defence. However, remote sensing stands to benefit greatly from infrared spectral imaging devices. This project will develop the technology for an infrared spectral imaging system, suitable for numerous remote sensing applications.
LANGUAGES OF SECURITY IN THE ASIAN REGION AND AUSTRALIA. Recognising that the challenge of 'safeguarding Australia' must take account of Australia's regional environment, the project will explore the different vocabulary, concepts, axioms and norms relating to security issues in Asian societies and Australia. It will consider the way different security understandings can help to explain divergent state and non-state action in approaches to defence matters as well as terrorism and transnational ....LANGUAGES OF SECURITY IN THE ASIAN REGION AND AUSTRALIA. Recognising that the challenge of 'safeguarding Australia' must take account of Australia's regional environment, the project will explore the different vocabulary, concepts, axioms and norms relating to security issues in Asian societies and Australia. It will consider the way different security understandings can help to explain divergent state and non-state action in approaches to defence matters as well as terrorism and transnational crime. Collaboration with the Industry Partner will assist the Project to be developed (e.g. in the identification of key concepts) and communicated in a way that will be of maximum use to Australian government and its agencies.Read moreRead less
Integrated optical phased arrays for light detection and ranging (LIDAR). This project aims to resolve challenging problems in light detection and ranging (LIDAR) to enable realisation of LIDAR sensors with low-power consumption, small size, high resolution and low cost. It proposes new techniques for integrated silicon photonic beam-steering to reduce the Size, Weight, and Power (SWaP), and achieve high-resolution beams with hardware reduction. Outcomes herald disruptive, compact on-chip LIDAR ....Integrated optical phased arrays for light detection and ranging (LIDAR). This project aims to resolve challenging problems in light detection and ranging (LIDAR) to enable realisation of LIDAR sensors with low-power consumption, small size, high resolution and low cost. It proposes new techniques for integrated silicon photonic beam-steering to reduce the Size, Weight, and Power (SWaP), and achieve high-resolution beams with hardware reduction. Outcomes herald disruptive, compact on-chip LIDAR technology for various applications including secure communications, miniaturized sensing, tracking systems, and autonomous vehicles. Significant benefits include industry growth, safeguarding Australia, and major economic benefits underpinning a huge market encompassing autonomous vehicles and robotics.
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Heteronuclear parallel imaging and spectroscopy for magnetic resonance. This project will develop novel imaging technology for improved interrogation of biological processes in living tissue. Successful outcomes of this project are expected to contribute significantly to biomedical research efforts, such as improved early detection and treatment of cancer and chronic disease.
Reducing 3D geological uncertainty via improved data interpretation methods. The integrity of 3D geological models heavily relies on robust and consistent data interpretation. This project proposes an innovative workflow for 3D modelling to minimise geological uncertainty. Advanced visualisation and intelligent decision support methods will be combined to assist geological interpretation. Feedback on interpretation will be provided based on data evidence and consistency with expert knowledge and ....Reducing 3D geological uncertainty via improved data interpretation methods. The integrity of 3D geological models heavily relies on robust and consistent data interpretation. This project proposes an innovative workflow for 3D modelling to minimise geological uncertainty. Advanced visualisation and intelligent decision support methods will be combined to assist geological interpretation. Feedback on interpretation will be provided based on data evidence and consistency with expert knowledge and previous interpretations. The process can be considered as a spelling and grammar checker for geological interpretation. The outcome of this study aims to achieve an improved workflow that reduces model uncertainty, resulting in a broad and significant impact on the management of Australian mineral, energy and water resources.Read moreRead less