Special Research Initiatives - Grant ID: SR0567533
Funder
Australian Research Council
Funding Amount
$120,000.00
Summary
Scientific Instruments as ICT Components in Building a GrEMLIN for e-Research. The proposal seeks to initiate the development of a GrEMLIN, a Grid Enabled Multi-Level Instrument Network, for e-Research. Scientific instruments, whether at conventional laboratories or at major facilities, may be regarded as specialised ICT components in a network providing remote access to such instrumentation. Collaborative remote access and data analysis brings efficiency and effectiveness dividends, that can ....Scientific Instruments as ICT Components in Building a GrEMLIN for e-Research. The proposal seeks to initiate the development of a GrEMLIN, a Grid Enabled Multi-Level Instrument Network, for e-Research. Scientific instruments, whether at conventional laboratories or at major facilities, may be regarded as specialised ICT components in a network providing remote access to such instrumentation. Collaborative remote access and data analysis brings efficiency and effectiveness dividends, that can be enhanced through the harnessing of Grid technologies. The collaborative project will leverage middleware, Web Services and e-Science software developments in the US and UK, to provide Grid enabled remote instrument access and data analysis as a powerful e-Research tool.Read moreRead less
Towards an Information Theory of Radar. Radar is a key sensing technology for the defence of Australia. It is also used in several civilian applications. Recent advances in engineering and science have led to significantly increased inherent capabilities for radar hardware. Nonetheless, radars in service and planned are unable to counter many current threats. To a large extent these new capabilities have yet to be fully exploited, and in large part this is because of the lack of an information ....Towards an Information Theory of Radar. Radar is a key sensing technology for the defence of Australia. It is also used in several civilian applications. Recent advances in engineering and science have led to significantly increased inherent capabilities for radar hardware. Nonetheless, radars in service and planned are unable to counter many current threats. To a large extent these new capabilities have yet to be fully exploited, and in large part this is because of the lack of an information theory for radar that corresponds to the highly successful theory of this kind for telecommunications. Our work, though pitched at fundamental ideas in the theory of radar, will lead to the production of improved radar capability that will permit improved threat detection and tracking.Read moreRead less
Cognitive Radio Technology: Increasing Spectral Efficiency of Wireless Communications. The radio spectrum is an expensive resource and normally requires licensed operation. Cognitive Radio has been proposed as a means of releasing large tracts of unused spectrum without causing interference to other users. It uses a combination of frequency agility and intelligence to identify unused spectrum for transmission. This study will evaluate the performance gains of such a system by developing a spect ....Cognitive Radio Technology: Increasing Spectral Efficiency of Wireless Communications. The radio spectrum is an expensive resource and normally requires licensed operation. Cognitive Radio has been proposed as a means of releasing large tracts of unused spectrum without causing interference to other users. It uses a combination of frequency agility and intelligence to identify unused spectrum for transmission. This study will evaluate the performance gains of such a system by developing a spectrum occupancy data base to test a variety of radio access strategies. Cognitive Radio is particularly suited to providing low cost broadband access to remote, rural and city fringe dwellings.Read moreRead less
Gigabit Wireless: Setting the Standard for Tomorrow's Broadband. This project will strengthen a long-term alliance between researchers at the University of Melbourne and NEC Australia, one of the few multinational research laboratories with significant R & D presence in Australia. Researchers at the University of Melbourne with expertise in communication theory fundamentals will collaborate with experienced research and design engineers at NEC, to produce fundamental research, and the resulting ....Gigabit Wireless: Setting the Standard for Tomorrow's Broadband. This project will strengthen a long-term alliance between researchers at the University of Melbourne and NEC Australia, one of the few multinational research laboratories with significant R & D presence in Australia. Researchers at the University of Melbourne with expertise in communication theory fundamentals will collaborate with experienced research and design engineers at NEC, to produce fundamental research, and the resulting design tools and intellectual property that will provide a new direction for wireless broadband access. The project will provide high-quality postgraduate and postdoctoral training in an area of great relevance to the Australian telecommunications industry.Read moreRead less
Adaptation of Vision Model to Perceptual Digital Picture Compression. This project spearheads research in the next generation digital picture compression technology, placing Australia an undisputed leader in this area of frontier technology. It will generate intellectual property and software prototype systems, which can be readily transferred into a vast number of visual communication and service applications, feeding into and rejuvenating national high-tech industries. These applications incl ....Adaptation of Vision Model to Perceptual Digital Picture Compression. This project spearheads research in the next generation digital picture compression technology, placing Australia an undisputed leader in this area of frontier technology. It will generate intellectual property and software prototype systems, which can be readily transferred into a vast number of visual communication and service applications, feeding into and rejuvenating national high-tech industries. These applications include digital photography for fine art, medical imaging, picture archive and communication systems for telemedicine and rural health care systems, high quality digital picture, video and cinematic experience, crime prevention, border control, security and surveillance systems.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668490
Funder
Australian Research Council
Funding Amount
$207,000.00
Summary
Ultra-high speed optical transmission test-bed for testing next generation photonic devices. This test facility will enable Australian researchers to validate optical technologies that are crucial for the development and deployment of ultrahigh speed optical networks in Australia. These next generation networks will make broadband internet connectivity more widespread and affordable for individuals and business. They provide the backbone for long haul, ultrahigh speed data transmission that link ....Ultra-high speed optical transmission test-bed for testing next generation photonic devices. This test facility will enable Australian researchers to validate optical technologies that are crucial for the development and deployment of ultrahigh speed optical networks in Australia. These next generation networks will make broadband internet connectivity more widespread and affordable for individuals and business. They provide the backbone for long haul, ultrahigh speed data transmission that link regional and urban communities within Australia and with the rest of the world, and enable a range of video on demand services including e-meetings, virtual classrooms and remote medical consultations. Demand for these services will drive new business opportunities for the Australian ICT sector.Read moreRead less
An intelligent integrated energy communication system. This multidisciplinary research project is an essential step towards transforming Australia's electricity infrastructure to become more intelligent. The real time monitoring of the power quality and energy usage will add value to the grid's operation, reducing planning and maintenance costs. Our intelligent grid technologies will contribute to the safeguarding of one of Australia's most critical infrastructures. Our technologies will contrib ....An intelligent integrated energy communication system. This multidisciplinary research project is an essential step towards transforming Australia's electricity infrastructure to become more intelligent. The real time monitoring of the power quality and energy usage will add value to the grid's operation, reducing planning and maintenance costs. Our intelligent grid technologies will contribute to the safeguarding of one of Australia's most critical infrastructures. Our technologies will contribute to the reduction of energy consumption and address environmental concerns. Training of postgraduate students in a multidisciplinary environment will create a capable new generation of researchers.Read moreRead less