Development of a novel flex sensor for use on catheters in medical pressure diagnostic tools. This research project will lead to a significant improvement on the technologies currently available to diagnostic tests of swallowing dysfunctions in children. The proposed technology is much needed and will enable future development of more direct and targeted interventions to assist with feeding based on these measurement techniques. In addition, the knowledge and expertise learned from this project ....Development of a novel flex sensor for use on catheters in medical pressure diagnostic tools. This research project will lead to a significant improvement on the technologies currently available to diagnostic tests of swallowing dysfunctions in children. The proposed technology is much needed and will enable future development of more direct and targeted interventions to assist with feeding based on these measurement techniques. In addition, the knowledge and expertise learned from this project as applied to such a miniature medical device comprises sufficient generic know-how to be useful in developing other biomedical devices. These developments will have a tangible technological impact in a way that will help the Australian biomedical industry be more competitive in the global market.Read moreRead less
New Approaches for Wireless Implantable Biomedical Devices. Wireless biomedical implants of the future will interface with biological systems to perform physiological tasks such as vision restoration, reanimation of paralyzed limbs, and chemical sensing. The potential benefit to society will come not only from alleviating human suffering and improving quality of life, but also by reducing the health care costs now directed to assist people with disabilities such as blindness, stroke and spinal-c ....New Approaches for Wireless Implantable Biomedical Devices. Wireless biomedical implants of the future will interface with biological systems to perform physiological tasks such as vision restoration, reanimation of paralyzed limbs, and chemical sensing. The potential benefit to society will come not only from alleviating human suffering and improving quality of life, but also by reducing the health care costs now directed to assist people with disabilities such as blindness, stroke and spinal-cord injury survivors. Using similar technologies, cochlear implants have already restored functional hearing to over 100,000 deaf patients around the world. The outcomes of the project can also be applied to a variety of other applications such environmental monitoring, security and identification systems. Read moreRead less
Microelectronic Applications of Improved Silicon Light Emission. While semiconductor silicon chips have been the workhorse of the microelectronics revolution, more complex semiconductor materials have driven the communications revolution. Australian developments during 2001 have largely dispelled the myth that silicon is fundamentally a poor emitter of light. This project aims to build on this work by developing silicon light emitters suitable for integration into high density integrated circu ....Microelectronic Applications of Improved Silicon Light Emission. While semiconductor silicon chips have been the workhorse of the microelectronics revolution, more complex semiconductor materials have driven the communications revolution. Australian developments during 2001 have largely dispelled the myth that silicon is fundamentally a poor emitter of light. This project aims to build on this work by developing silicon light emitters suitable for integration into high density integrated circuits, adding a new dimension to the capabilities of these circuits, driving microelectronics and the information age to the next stage of development.Read moreRead less
Barium Strontium Titanate Thin Films for Tunable Microwave Applications. Australian businesses rely on information and communications technologies (ICT) in order to remain competitive in the global economy. Over the last decade or so, ICT has also found applications in consumer devices, many of which are wireless. This has lead to strong growth in the market for such technologies. Barium strontium titanate (BST) devices can be used to enhance the efficiency and lower the cost of radio frequency ....Barium Strontium Titanate Thin Films for Tunable Microwave Applications. Australian businesses rely on information and communications technologies (ICT) in order to remain competitive in the global economy. Over the last decade or so, ICT has also found applications in consumer devices, many of which are wireless. This has lead to strong growth in the market for such technologies. Barium strontium titanate (BST) devices can be used to enhance the efficiency and lower the cost of radio frequency devices to make wireless technology more accessible for the Australian community. Additionally, BST devices can be applied for frequency agile applications, which are invaluable for the Australian defence sector.Read moreRead less
Special Research Initiatives - Grant ID: SR0354721
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Frontier and Security Technologies Microfabrication Network. This Initiative will conduct a comprehensive survey of Australia's resources in micro-fabrication, a key enabling technology for two national research priority areas, and generate new collaboration opportunities that capitalise on this resource base and open it to a wider range of applications. The Initiative will focus on photonics, nano-materials and security applications, and will identify gaps in micro-fabrication capabilities requ ....Frontier and Security Technologies Microfabrication Network. This Initiative will conduct a comprehensive survey of Australia's resources in micro-fabrication, a key enabling technology for two national research priority areas, and generate new collaboration opportunities that capitalise on this resource base and open it to a wider range of applications. The Initiative will focus on photonics, nano-materials and security applications, and will identify gaps in micro-fabrication capabilities required to support research in these areas. The outcomes will be a key element in a national strategic plan for these areas of national priority. The web site will demonstrate key features of the IT-based support features of a micro-fabrication network.Read moreRead less
Dynamic signal processing with currents. Today's digital computers and communications devices, such as mobile phones, contain continuous time filters as necessary and important components. We will investigate an integrated circuit design methodology for the creation of fully programmable versions of such filters. Currently these filters are redesigned for each application and are often external to the IC. This increases the size and cost of the design. Another outcome of the methodology is a cur ....Dynamic signal processing with currents. Today's digital computers and communications devices, such as mobile phones, contain continuous time filters as necessary and important components. We will investigate an integrated circuit design methodology for the creation of fully programmable versions of such filters. Currently these filters are redesigned for each application and are often external to the IC. This increases the size and cost of the design. Another outcome of the methodology is a current domain signal processor. This will be capable of modelling complex systems such as biological neurons and stock option pricing. We will build these systems and interface them with digital computers.Read moreRead less
Theoretical and Numerical Analyses on Smart-Cut Technology. Smart-cut is an innovative and effective technique for fabricating high quality silicon-on-insulator structures which are widely used in the semiconductor and microelectronics industries. The quantification of the effects of processing parameters and the optimization of smart-cut process will be conducted in this project. The results are expected to make significant contributions to reducing cost, increasing efficiency and optimizing pr ....Theoretical and Numerical Analyses on Smart-Cut Technology. Smart-cut is an innovative and effective technique for fabricating high quality silicon-on-insulator structures which are widely used in the semiconductor and microelectronics industries. The quantification of the effects of processing parameters and the optimization of smart-cut process will be conducted in this project. The results are expected to make significant contributions to reducing cost, increasing efficiency and optimizing procedure by providing a theoretical and quantitative design methodology to improve the smart-cut technique. Consequently, the outcomes and results of the project will bring many benefits to and encourage further R&D in the semiconductor and microelectronics industries in Australia.Read moreRead less
Centre for Advanced Silicon Photovoltaics and Photonics. Silicon photovoltaics (Si PV) is a priority area within the Photon Science and Technology category. Multiple studies have identified PV solar electricity as the most promising option for a sustainable energy future, with Australia already at the forefront internationally in Si PV. The applicants recently have shown that insights from PV also may provide the key to the successful development of active Si photonic devices for integration i ....Centre for Advanced Silicon Photovoltaics and Photonics. Silicon photovoltaics (Si PV) is a priority area within the Photon Science and Technology category. Multiple studies have identified PV solar electricity as the most promising option for a sustainable energy future, with Australia already at the forefront internationally in Si PV. The applicants recently have shown that insights from PV also may provide the key to the successful development of active Si photonic devices for integration into microelectronics. The Centre's aims and expected outcomes are to strengthen this technological lead in Si PV while pioneering the development of active Si photonic devices for microelectronic integration, with economic, cultural and social benefits.Read moreRead less
A Skin Detection Micro-Sensor for Face Identification using Color and Stereo Information. The objective of this research is to develop a micro-sensor for face identification, using color and stereo information. The micro-sensor chip performs a real-time search of the scene to locate human skin for subsequent face detection. This micro-sensor could also be used for gesture recognition, lip reading, monitoring driver's hypo-vigilance or tracking a person in a crowd. The chip image-recognition capa ....A Skin Detection Micro-Sensor for Face Identification using Color and Stereo Information. The objective of this research is to develop a micro-sensor for face identification, using color and stereo information. The micro-sensor chip performs a real-time search of the scene to locate human skin for subsequent face detection. This micro-sensor could also be used for gesture recognition, lip reading, monitoring driver's hypo-vigilance or tracking a person in a crowd. The chip image-recognition capabilities will spur the development of a new generation of consumer products with "intelligent eyes".
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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0345794
Funder
Australian Research Council
Funding Amount
$200,000.00
Summary
Spectroscopic Imaging Ellipsometry for Opto-VLSI Engineering and Nanotechnology Applications. The focus for implementation of spectroscopic imaging ellipsometry is to create a powerful optical analysis and characterisation tool to complement the advanced integrated circuit test facilities within Western Australia. This infrastructure will facilitate the integration of the fields of materials research, new device technologies, integrated circuit technology, nanotechnology and photonics in the exp ....Spectroscopic Imaging Ellipsometry for Opto-VLSI Engineering and Nanotechnology Applications. The focus for implementation of spectroscopic imaging ellipsometry is to create a powerful optical analysis and characterisation tool to complement the advanced integrated circuit test facilities within Western Australia. This infrastructure will facilitate the integration of the fields of materials research, new device technologies, integrated circuit technology, nanotechnology and photonics in the expanding field of Opto-VLSI. The proposed equipment is being built upon targeted research in VLSI, and will create an additional platform for innovations in microelectronic technology applicable to the communications, information technology, energy generation, security, and biomedical fields.Read moreRead less