Digitising art projects archive. This project aims to theorise and document the creation of a permanent record of the development of public art in Australia through the digitisation of the Kaldor Public Art Projects (KPAP) archive. Digitising the archive will advance knowledge in social history and art history, and cement the cultural legacy of the KPAP archive. The project will make the KPAP archive an online resource widely available to researchers and the public. Over five decades KPAP, the f ....Digitising art projects archive. This project aims to theorise and document the creation of a permanent record of the development of public art in Australia through the digitisation of the Kaldor Public Art Projects (KPAP) archive. Digitising the archive will advance knowledge in social history and art history, and cement the cultural legacy of the KPAP archive. The project will make the KPAP archive an online resource widely available to researchers and the public. Over five decades KPAP, the first organisation of its type in the world which has attracted strong public interest, has created innovative, ground-breaking public art projects that, although temporary, have left a cultural permanence in the Australian art landscape. Read moreRead less
A versatile optical wavelength and mode switching device for future telecommunication networks. This project will develop a next generation switching device for future fibre optical communication networks that will divide their information among several modes of specialty fibre. This device will be a key component for allowing network operators to move to these novel mode-multiplexed networks in order to overcome the looming capacity crunch.
Novel optical dispersion compensation techniques in an optical transmission system. The outcomes of the project will lead to crucial innovations in reconfigurable ultrahigh bit rate optical networks whose deployment in Australia will lead to widespread availability of broadband data communications services to individuals and businesses. This crucial infrastructure will create a platform for services and products from the Australian ICT sector in areas including e-education, e-health and telecomm ....Novel optical dispersion compensation techniques in an optical transmission system. The outcomes of the project will lead to crucial innovations in reconfigurable ultrahigh bit rate optical networks whose deployment in Australia will lead to widespread availability of broadband data communications services to individuals and businesses. This crucial infrastructure will create a platform for services and products from the Australian ICT sector in areas including e-education, e-health and telecommuting.
The outcomes of the project will be commercialized, leading to significant exports and employment opportunities for photonics scientists and engineers.Read moreRead less
Smart Antennas for Broadband Wireless Data Systems. Smart antennas can facilitate accommodation of an increasing demand for bandwidth and quality in wireless communications by directing the antenna beam towards the desired user, while suppressing signals coming from interferers. The beam forming processor can adapt to changes in channel propagation conditions as well as movements of the user or interferers. Many algorithms for controlling smart antennas have been proposed, and usually there is a ....Smart Antennas for Broadband Wireless Data Systems. Smart antennas can facilitate accommodation of an increasing demand for bandwidth and quality in wireless communications by directing the antenna beam towards the desired user, while suppressing signals coming from interferers. The beam forming processor can adapt to changes in channel propagation conditions as well as movements of the user or interferers. Many algorithms for controlling smart antennas have been proposed, and usually there is a trade-off between complexity and performance. We aim to find a suitable compromise to implement smart antennas for broadband wireless access systems and to apply smart antenna technology to increase the range of ultra-wideband communications.Read moreRead less
Constant Envelope and Coded Modulation for Terrestrial and Satellite Radio. Modems for portable radio terminals must take advantage of state-of-the-art digital communications in order to stay commercially competitive. In particular they need to utilize less bandwidth and power for a fixed data rate. The approach here is to employ a parallel configuration of highly efficient error control codes, together with bandwidth efficient continuous phase modulation (CPM). The theoretical performance of su ....Constant Envelope and Coded Modulation for Terrestrial and Satellite Radio. Modems for portable radio terminals must take advantage of state-of-the-art digital communications in order to stay commercially competitive. In particular they need to utilize less bandwidth and power for a fixed data rate. The approach here is to employ a parallel configuration of highly efficient error control codes, together with bandwidth efficient continuous phase modulation (CPM). The theoretical performance of such a system is to be investigated using a novel information-theoretic technique, and the system will be optimised in terms of coding scheme and CPM complexity.Read moreRead less
Tailoring ultrafast pulses for Tb/s transmission with advanced modulation formats. Ultrahigh bandwidth communications technologies will play an increasingly important role in the social and economic development of Australia. The potential benefit is emphasised by the recent decision to build a broadband network valued at $8 B that will link the vast majority of Australian homes and businesses by high speed optical fibre. In this project we will investigate innovative approaches for optical trans ....Tailoring ultrafast pulses for Tb/s transmission with advanced modulation formats. Ultrahigh bandwidth communications technologies will play an increasingly important role in the social and economic development of Australia. The potential benefit is emphasised by the recent decision to build a broadband network valued at $8 B that will link the vast majority of Australian homes and businesses by high speed optical fibre. In this project we will investigate innovative approaches for optical transmission of data at the ultrahigh bit rates required by these next generation networks. These approaches will be based on technology developed in Australia by the Partner Organisation Optium Corporation, leading to further growth opportunities within the Australian manufacturing operation of this company.Read moreRead less
An Intelligent Robotic System for Underwater Structure Maintenance. This project aims to build a theoretical and experimental foundation for developing robots for underwater structure maintenance in near surface and tidal environments where water current and wave action can be strong. A novel intelligent robotic system with multiple arms is planned to be developed. The project will address research challenges associated with perception, mapping, planning and control, and develop methodologies th ....An Intelligent Robotic System for Underwater Structure Maintenance. This project aims to build a theoretical and experimental foundation for developing robots for underwater structure maintenance in near surface and tidal environments where water current and wave action can be strong. A novel intelligent robotic system with multiple arms is planned to be developed. The project will address research challenges associated with perception, mapping, planning and control, and develop methodologies that enable the realisation of such robotic systems. The intended outcomes will contribute to marine robotics research and its industrial applications, and will improve productivity and occupational health and safety by replacing the humans needed to work in such hazardous environments.Read moreRead less
Biologically inspired robotic system for steel bridge condition assessment. Australia has many thousands of steel bridges which form a key infrastructure supporting urban and rural communities. Periodic inspection is a vital undertaking that minimises risk of bridge failures and associated community impact. This project will develop a robotic inspection system capable of crawling over the structure, inspecting all areas, acquiring essential information and appropriately presenting these to a hu ....Biologically inspired robotic system for steel bridge condition assessment. Australia has many thousands of steel bridges which form a key infrastructure supporting urban and rural communities. Periodic inspection is a vital undertaking that minimises risk of bridge failures and associated community impact. This project will develop a robotic inspection system capable of crawling over the structure, inspecting all areas, acquiring essential information and appropriately presenting these to a human operator to facilitate effective condition assessment. The project's outcomes will lay the foundation for the world-wide use of bio-inspired robots in civil infrastructure condition assessment, significantly increasing worker’ safety and greatly reducing the costs and improving the efficiency of the inspection process.Read moreRead less
Polymer Band Gap Engineering. The development of fibre optic communication networks has enabled the provision of low cost long-distance telephony and the dramatic growth of the Internet. This project aims to develop polymeric materials that receive optical signals in the telecommunications (near IR) band. Such a capability would allow RPO to build low cost power monitoring into all its integrated optical devices and would massively enhance its market opportunities and chances of growth. Furtherm ....Polymer Band Gap Engineering. The development of fibre optic communication networks has enabled the provision of low cost long-distance telephony and the dramatic growth of the Internet. This project aims to develop polymeric materials that receive optical signals in the telecommunications (near IR) band. Such a capability would allow RPO to build low cost power monitoring into all its integrated optical devices and would massively enhance its market opportunities and chances of growth. Furthermore, this project lays the foundations for the development of an all-polymer optical chip, whose cost savings over the current technological strategies would revolutionise the photonics and information technology sector.Read moreRead less
Microstructured polymer interconnects for photonic devices. Efficient interconnection of photonic components is the most critical research problem facing the photonics industry in its efforts for integration. In this project, interconnects for photonic systems will be developed, utilising a recently developed new class of fibres - microstructured optical fibres, which have been called 'the next generation' of optical fibres because of their ability to produce a variety of tailorisable optical ef ....Microstructured polymer interconnects for photonic devices. Efficient interconnection of photonic components is the most critical research problem facing the photonics industry in its efforts for integration. In this project, interconnects for photonic systems will be developed, utilising a recently developed new class of fibres - microstructured optical fibres, which have been called 'the next generation' of optical fibres because of their ability to produce a variety of tailorisable optical effects. Specially designed and modified microstructured fibres will be developed to achieve efficient coupling from fibre to planar waveguide circuits, and to a range of photonic band gap devices that are currently being developed by the industry partner.Read moreRead less