Miniaturised Adiabatic Light Processing Devices. The project will develop, model and analyse a range of miniaturised light-processing devices for optical communications applications that rely soley on their geometrical design for their optical functionality. Such devices are less complex than devices that rely on other physical phenomena for their operation, such as interference, resonance or grating phenomena. They have potential application to a wide range of applications including optical tel ....Miniaturised Adiabatic Light Processing Devices. The project will develop, model and analyse a range of miniaturised light-processing devices for optical communications applications that rely soley on their geometrical design for their optical functionality. Such devices are less complex than devices that rely on other physical phenomena for their operation, such as interference, resonance or grating phenomena. They have potential application to a wide range of applications including optical telecommunications, optical sensing and biophotonics. The major outcome will be a range of novel devices that are very compact, have very low optical power loss and process light signals in ways that either cannot be readily achieved by other approaches or are simpler than other approaches.Read moreRead less
The photonic immunochip: retrieving individual Enzyme-linked Immuno Sorbent Assay (ELISA) array-units using optical waveguide multicolour fluorescence. Improving the sensitivity and availability of in-vitro immuno-diagnostic tests is a critical goal towards developing real time efficient tools for the detection of infectious diseases, cancers, allergies and auto-immune diseases. The goal is to increase the sensitivity of these tests by reducing background noise that has been a feature of the com ....The photonic immunochip: retrieving individual Enzyme-linked Immuno Sorbent Assay (ELISA) array-units using optical waveguide multicolour fluorescence. Improving the sensitivity and availability of in-vitro immuno-diagnostic tests is a critical goal towards developing real time efficient tools for the detection of infectious diseases, cancers, allergies and auto-immune diseases. The goal is to increase the sensitivity of these tests by reducing background noise that has been a feature of the commonly used ELISA technology. This will be achieved by developing a novel optical integrated waveguide array supporting a large range of distributed tests, including several based on a novel multi-colour detection scheme. This massively parallel approach will underpin a new generation of low-cost, efficient diagnostic tests.Read moreRead less
Ultra-sensitivity through resonances in photonic bandgap fibres. The project will develop innovative biochemical sensors with extreme sensitivity using recently discovered physical processes in novel holey optical fibres. These sensors will be able to detect biological molecules, toxins or dangerous chemicals in minute concentrations, in very small sample sizes. The sensors can be mass-produced cheaply with current fabrication facilities within Australia, enabling their widespread use for water ....Ultra-sensitivity through resonances in photonic bandgap fibres. The project will develop innovative biochemical sensors with extreme sensitivity using recently discovered physical processes in novel holey optical fibres. These sensors will be able to detect biological molecules, toxins or dangerous chemicals in minute concentrations, in very small sample sizes. The sensors can be mass-produced cheaply with current fabrication facilities within Australia, enabling their widespread use for water quality monitoring, environmental monitoring, threat detection, and rapid and reliable diagnosis in medicine.Read moreRead less
Efficient Signal Transmission Techniques for Future Wireless Communications Systems. The project aims at developing efficient signal transmission techniques that enable advanced telecommunication services to achieve high quality and cover greater geographic areas with low cost and minimal infrastructure. The outcomes of the project will enable high performance, high data rate and cost-effective wireless communications in Australia. The outcomes can be directly applied to current and future wirel ....Efficient Signal Transmission Techniques for Future Wireless Communications Systems. The project aims at developing efficient signal transmission techniques that enable advanced telecommunication services to achieve high quality and cover greater geographic areas with low cost and minimal infrastructure. The outcomes of the project will enable high performance, high data rate and cost-effective wireless communications in Australia. The outcomes can be directly applied to current and future wireless LAN, cellular mobile networks, WiMax systems, WiFi and other wireless networks. In addition, it will support and enhance the social and economic benefit of wireless access to broadband networks in rural and regional Australia.Read moreRead less
Sensing and Communications for Tactical Radio: Mapping the RF Weather. This project investigates sensing, localisation and communication strategies to improve the performance of modern tactical radio networks. Such networks face all of the well-known design challenges of mobile ad-hoc networks (MANETs) but with added complication of a contested and adversarial operating environment. By exploiting the power of radio nodes to sense the radio spectrum, as well as to communicate over it, a distribut ....Sensing and Communications for Tactical Radio: Mapping the RF Weather. This project investigates sensing, localisation and communication strategies to improve the performance of modern tactical radio networks. Such networks face all of the well-known design challenges of mobile ad-hoc networks (MANETs) but with added complication of a contested and adversarial operating environment. By exploiting the power of radio nodes to sense the radio spectrum, as well as to communicate over it, a distributed network of nodes can create a detailed picture of the surrounding radio-frequency (RF) environment: the nodes can work together to map the “RF weather”. In this project we will design advanced sensing and localisation methods to accurately map the RF spectrum, and then exploit this map in communication system design.Read moreRead less
Processing and Compression of Digital Video in Immersive Environments. This project will have significant economic and social benefits, both in terms of the technologies developed and the new applications in training and entertainment supported by them. This project supports the national research priority "Frontier Technologies for Building and Transforming Australian Industries", supporting media and creative industries and assisting organisations to collaborate across large distances. These be ....Processing and Compression of Digital Video in Immersive Environments. This project will have significant economic and social benefits, both in terms of the technologies developed and the new applications in training and entertainment supported by them. This project supports the national research priority "Frontier Technologies for Building and Transforming Australian Industries", supporting media and creative industries and assisting organisations to collaborate across large distances. These benefits will be realised in both urban and remote areas. The collaboration between the CIs and the iCinema Centre will lead to the application of advanced technology to real-world problems.Read moreRead less
Accurate Location Service for 3G Cellular Networks. The project aims to improve the accuracy of automatic location identification of GPS enabled handsets in third-generation cellular networks via a modified Differential GPS method. The proposed sub-metre location ability will be a value-added service of the network providers and will appeal to a wide sector of users. The challenge is to develop a cost effective solution by utilising existing network infrastructure. We propose to use the GPS timi ....Accurate Location Service for 3G Cellular Networks. The project aims to improve the accuracy of automatic location identification of GPS enabled handsets in third-generation cellular networks via a modified Differential GPS method. The proposed sub-metre location ability will be a value-added service of the network providers and will appeal to a wide sector of users. The challenge is to develop a cost effective solution by utilising existing network infrastructure. We propose to use the GPS timing units in 3G networks for deriving local GPS position corrections; and to transfer these corrections to the users via the 3G data bursts of the beacons or other user data broadcasts.Read moreRead less
Advanced Space-Time Coded Multiuser Wireless Communications via Test-bed Development. Meeting the global demand for mobile and wireless communications depends critically on reliable and high rate data transfer. Unfortunately, communications medium idiosyncrasies pose formidable challenges. Very recently, in combatting this, major breakthroughs have been achieved whereby the use of multiple antennas allows for drastic data-rate increases. These advances use sophisticated Space-Time coding metho ....Advanced Space-Time Coded Multiuser Wireless Communications via Test-bed Development. Meeting the global demand for mobile and wireless communications depends critically on reliable and high rate data transfer. Unfortunately, communications medium idiosyncrasies pose formidable challenges. Very recently, in combatting this, major breakthroughs have been achieved whereby the use of multiple antennas allows for drastic data-rate increases. These advances use sophisticated Space-Time coding methods, and while they are causing great excitement in terms of their simulation performance, it is not clear how they will perform in practice, or in fact how they are to be realistically implemented. This project will address this issue by building a world-first testbed that implements a high rate wireless communications system using Space-Time and other coding methods.Read moreRead less
Object-based Video Compression for Delay-Insensitive Services. Digital television is now big business worldwide. Techniques that can lead to improved compression of audiovisual services will always be of interest both to international standards bodies and to industry. The development of more efficient transmission techniques for audiovisual services will be of considerable benefit to all regions of Australia and in particular to remote regions. It can be expected that the development of this tec ....Object-based Video Compression for Delay-Insensitive Services. Digital television is now big business worldwide. Techniques that can lead to improved compression of audiovisual services will always be of interest both to international standards bodies and to industry. The development of more efficient transmission techniques for audiovisual services will be of considerable benefit to all regions of Australia and in particular to remote regions. It can be expected that the development of this technology will significantly improve service quality in these areas without the need for upgrading the existing telecommunications infrastructure. This will allow, for example, pay and free-to-air operators to provide additional services within their current bandwidth limitations.Read moreRead less
Cross-Correlated Security and Service Quality in Heterogeneous Mobile Communication Networks. Mobile telecommunication infrastructures constitute the vital elements of all developed countries and therefore their reliability and integrity has a profound role in a sustained national economy progress. This project will provide a uniquely practical and long-term solution to the Internet security threat even after introduction of new mobile applications and services. The project will put Australia on ....Cross-Correlated Security and Service Quality in Heterogeneous Mobile Communication Networks. Mobile telecommunication infrastructures constitute the vital elements of all developed countries and therefore their reliability and integrity has a profound role in a sustained national economy progress. This project will provide a uniquely practical and long-term solution to the Internet security threat even after introduction of new mobile applications and services. The project will put Australia on the frontbench of the extensive research activities worldwide in the field of mobile network security and quality of service. This project will protect the nation's most valuable data infrastructure from service interruption as a result of a sudden data traffic load increase.Read moreRead less