The Australian Research Data Commons (ARDC) invites you to participate in a short survey about your
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We will use the information you provide to improve the national research infrastructure and services we
deliver and to report on user satisfaction to the Australian Government’s National Collaborative Research
Infrastructure Strategy (NCRIS) program.
Please take a few minutes to provide your input. The survey closes COB Friday 29 May 2026.
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Designing Bandwidth-Efficient High-Speed Underwater Acoustic Communication Systems with Block-by-Block Turbo Processing. Australia has one of the largest exclusive economic zones in the world, and it is vitally important for Australia to understand and benefit from the oceans. This project will give new perspectives in developing underwater acoustic communications that are important for marine industries and scientific research in areas such as the exploration and exploitation of offshore oil an ....Designing Bandwidth-Efficient High-Speed Underwater Acoustic Communication Systems with Block-by-Block Turbo Processing. Australia has one of the largest exclusive economic zones in the world, and it is vitally important for Australia to understand and benefit from the oceans. This project will give new perspectives in developing underwater acoustic communications that are important for marine industries and scientific research in areas such as the exploration and exploitation of offshore oil and gas, and ocean environment and climate monitoring. This project will lift the international profile of Australia in underwater acoustic communications research and, through the training of early career researchers and PhD students, this project will also develop a skills base for Australia in underwater acoustic communications.Read moreRead less
Design of Planar Microwave Components and Sub-systems for Wideband Applications. The present research proposal will support the development of the Australian wireless communication industries by providing them with new solutions of fully integrated low-profile and compact size wideband wireless sub-systems, as demanded by emerging wideband applications. This goal will be accomplished by applying a new technique to the design of planar microwave circuits. The proposed solution should lead to impr ....Design of Planar Microwave Components and Sub-systems for Wideband Applications. The present research proposal will support the development of the Australian wireless communication industries by providing them with new solutions of fully integrated low-profile and compact size wideband wireless sub-systems, as demanded by emerging wideband applications. This goal will be accomplished by applying a new technique to the design of planar microwave circuits. The proposed solution should lead to improved competitiveness of the Australian communication companies in a global wireless communications market.Read moreRead less
Epitaxial growth of Zn-VI/III-N nanowire-based structures for future device applications. This project, aiming for developing zinc and nitrogen epitaxial nanowires, addresses specific National Research Priorities in the areas of breakthrough science, frontier technology and advanced materials. Outcomes will significantly advance the understanding of the evolution of epitaxial nanowire structures and their demonstrated properties. This project will provide informative guidelines for designing, de ....Epitaxial growth of Zn-VI/III-N nanowire-based structures for future device applications. This project, aiming for developing zinc and nitrogen epitaxial nanowires, addresses specific National Research Priorities in the areas of breakthrough science, frontier technology and advanced materials. Outcomes will significantly advance the understanding of the evolution of epitaxial nanowire structures and their demonstrated properties. This project will provide informative guidelines for designing, developing and manufacturing nanowire-based nanostructures for future nanodevices and nanosystems, which is strategically important to Australia's emerging high-tech industries. This project will also enhance the international reputation and impact of Australian research in the internationally focused field of nanoscience and nanotechnology.Read moreRead less
Epitaxial Nanowires for Optoelectronic Device Applications. Nanotechnology is expected to make a major impact in all industrial sectors and multi-trillion dollar economic activity is expected by 2020. Nanowires are considered to be new building blocks for future electronics and photonics technologies and our aim is to develop nanowire based technologies which are of benefit to Australian industry. This project will develop patentable technologies as well as enhance international links with UK, ....Epitaxial Nanowires for Optoelectronic Device Applications. Nanotechnology is expected to make a major impact in all industrial sectors and multi-trillion dollar economic activity is expected by 2020. Nanowires are considered to be new building blocks for future electronics and photonics technologies and our aim is to develop nanowire based technologies which are of benefit to Australian industry. This project will develop patentable technologies as well as enhance international links with UK, China, Sweden and Norway. Training of postgraduate students and post-doctoral fellows in the field of nanotechnology will be of immense benefit to Australian industries, research and academic institutions. Read moreRead less
A Spatially-Aware RFID-enhanced Sensor Network. Using radio frequency identity (RFID) tags to revolutionise sensor network technologies has the potential to have wide ranging impacts on many of Australia's key industries, including precision agriculture, health care and habitat monitoring (e.g., bush fires).
This fundamental research will create a new type of communication network that will have tremendous impact by allowing monitoring and tracking technologies to be deployed over large, infr ....A Spatially-Aware RFID-enhanced Sensor Network. Using radio frequency identity (RFID) tags to revolutionise sensor network technologies has the potential to have wide ranging impacts on many of Australia's key industries, including precision agriculture, health care and habitat monitoring (e.g., bush fires).
This fundamental research will create a new type of communication network that will have tremendous impact by allowing monitoring and tracking technologies to be deployed over large, infrastructure-free areas at nominal cost. By contributing to the solution of the cost and complexity problems that limit practical deployment of sensor networks, we hope help Australia become a global leader in realizing real-world benefits from information communication technologies.Read moreRead less
Reliable Communication in Wireless Cooperative Networks under Channel Uncertainty. The project addresses important problems in Breakthrough sciences and Frontier technologies within the national priority goals. It provides innovative solutions for wireless information technologies. The project's high-impact contributions will advance Australia’s knowledge base and publication of outcomes will elevate and maintain Australia's existing reputation in the field. The project provides 1) high-quality ....Reliable Communication in Wireless Cooperative Networks under Channel Uncertainty. The project addresses important problems in Breakthrough sciences and Frontier technologies within the national priority goals. It provides innovative solutions for wireless information technologies. The project's high-impact contributions will advance Australia’s knowledge base and publication of outcomes will elevate and maintain Australia's existing reputation in the field. The project provides 1) high-quality training for postgraduate students and 2) opportunities for collaborations with a prominent international partner investigator. The innovative solutions will address the ever-increasing demand for high-speed wireless Internet and multimedia.Read moreRead less
Decentralized Control Problems for Networked Systems. The conceptual advances to be made in the area decentralized control of networked systems.
New design rules for decentralized control in networked systems will be developed and published in the top international journals and major international conferences.
Also, a contribution of the project will be to produce high quality Ph.D. graduates in this area of control theory.
Nonlinear photonic crystals. Photonic crystals have recently became very attractive for photonic technology, that uses light instead of slow electrons as the information carriers replacing electronics in communications and information management. This project has the purpose to develop the fundamental concept of nonlinear photonic crystals and demonstrate their possible applications analysing the properties of the nonlinearity-induced light localization, nonlinear transmission, and frequency co ....Nonlinear photonic crystals. Photonic crystals have recently became very attractive for photonic technology, that uses light instead of slow electrons as the information carriers replacing electronics in communications and information management. This project has the purpose to develop the fundamental concept of nonlinear photonic crystals and demonstrate their possible applications analysing the properties of the nonlinearity-induced light localization, nonlinear transmission, and frequency conversion in band-gap materials with the intensity-dependent optical response. This will allow the possibility realising in practice nonlinear switching even for sharply bent waveguides, providing an effective way to control the flow of light in band-gap photonic circuits.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
A Green Internet - telecommunications technologies and their environmental impact. This project will solve problems of direct importance to Australia and the wider international community. It will enable continued growth of broadband Internet services in Australia and elsewhere, while minimizing the environmental impact of this growth. The project will significantly advance Australia's participation in Information and Communications industries through an increase in the knowledge and skills ba ....A Green Internet - telecommunications technologies and their environmental impact. This project will solve problems of direct importance to Australia and the wider international community. It will enable continued growth of broadband Internet services in Australia and elsewhere, while minimizing the environmental impact of this growth. The project will significantly advance Australia's participation in Information and Communications industries through an increase in the knowledge and skills base in telecommunications technologies and their environmental impact. The outcomes of the research will be in technologies that are well-matched to the needs and interests of Australian companies. Read moreRead less