New error correction strategies for continuous variable quantum key distribution. Quantum key distribution is a completely secure method for two distant parties to share a unique secret key. The aim of this project is to design new algorithms, construction tools and analysis techniques to produce new iterative error correction codes, which will improve the operational distance and performance of quantum key distribution.
Trusted Environment for Virtual Collaboration. Internet business transactions highlight Trust. This project explores creating trust between business peers to aid business contact. Aims: 1 Define concepts & relationship of Trust between peers 2 Develop Trust protocol & infrastructure managing P2P communication 3 Propose methodology showing trustworthiness values after interaction 4 Develop trust modelling language specifying trust relationships between peers for storing in trust repositories 5 Ap ....Trusted Environment for Virtual Collaboration. Internet business transactions highlight Trust. This project explores creating trust between business peers to aid business contact. Aims: 1 Define concepts & relationship of Trust between peers 2 Develop Trust protocol & infrastructure managing P2P communication 3 Propose methodology showing trustworthiness values after interaction 4 Develop trust modelling language specifying trust relationships between peers for storing in trust repositories 5 Apply trust management protocol creating identity & behaviour trust in decentralized environments 6 Apply trust support system 7 Develop trust modelling language letting partners realize trust interaction outcomes. Multisite Project Management firms used are critical to smart information use.Read moreRead less
Development of Novel Polymer Optical Fiber Gratings. Polymer optical fiber gratings have attracted extensive worldwide research interest due to the excellent tunability and high sensitivity. They can be well developed into major devices for future optical communication and fiber sensing. But the research on polymer optical fiber are still at the early stage and the overall achievable performance of polymer optical fiber grating remains modest in comparison with that achieved in silica fiber grat ....Development of Novel Polymer Optical Fiber Gratings. Polymer optical fiber gratings have attracted extensive worldwide research interest due to the excellent tunability and high sensitivity. They can be well developed into major devices for future optical communication and fiber sensing. But the research on polymer optical fiber are still at the early stage and the overall achievable performance of polymer optical fiber grating remains modest in comparison with that achieved in silica fiber grating. This project addresses a range of key issues with scientific and technological importance on further exploring polymer optical fiber gratings for future industrial applications.Read moreRead less
Fibre-based Small Cell Backhauling for Next Generation Wireless Networks. With an unprecedented 11-fold growth in mobile data services expected over the next five years, wireless networks are facing a fundamental challenge in supporting this enormous traffic. In meeting this challenge, next generation wireless networks need to offer services over smaller cells with a significantly larger number of base-stations, thus allowing high capacity connection to the global internet (backhaul). The aim of ....Fibre-based Small Cell Backhauling for Next Generation Wireless Networks. With an unprecedented 11-fold growth in mobile data services expected over the next five years, wireless networks are facing a fundamental challenge in supporting this enormous traffic. In meeting this challenge, next generation wireless networks need to offer services over smaller cells with a significantly larger number of base-stations, thus allowing high capacity connection to the global internet (backhaul). The aim of this project is to formulate optimisation methodologies for a sustainable energy-efficient small cell backhaul infrastructure. Through integration with the optical fibre infrastructure, the research will address network planning, design, and optimisation in terms of performance, cost-effectiveness, and energy efficiency.Read moreRead less
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
Downlinks for Future Earth Observation Satellites: Breaking the Bottlenecks. Future earth-observation satellites require gigabit transmission rates in higher frequency bands. Limitations in the radio frequency spectrum call for spectrally-efficient modulation schemes, which make gigabit data rates particularly challenging. This project aims to design a next-generation transmission scheme for future Ka-Band gigabit satellite downlinks, including novel approaches for dealing with channel effects s ....Downlinks for Future Earth Observation Satellites: Breaking the Bottlenecks. Future earth-observation satellites require gigabit transmission rates in higher frequency bands. Limitations in the radio frequency spectrum call for spectrally-efficient modulation schemes, which make gigabit data rates particularly challenging. This project aims to design a next-generation transmission scheme for future Ka-Band gigabit satellite downlinks, including novel approaches for dealing with channel effects such as group delay, ripple and non-linear satellite power amplifiers. The design intends to include high-speed signal processing and coding architectures, plus real-time signal synthesis and acquisition to allow realistic performance testing and optimisation with satellite hardware from Thales Alenia Space.Read moreRead less
Agile and Efficient Machine to Machine Communication Systems. The project plans to deliver building blocks for designing future machine-to-machine (M2M) wireless access networks with a wide range of new applications. M2M communications have emerged as a new communication paradigm and are likely to become a dominant form of future communications. The project aims to develop novel communications techniques that are tailored to unique M2M network characteristics and requirements and demonstrate the ....Agile and Efficient Machine to Machine Communication Systems. The project plans to deliver building blocks for designing future machine-to-machine (M2M) wireless access networks with a wide range of new applications. M2M communications have emerged as a new communication paradigm and are likely to become a dominant form of future communications. The project aims to develop novel communications techniques that are tailored to unique M2M network characteristics and requirements and demonstrate the proposed algorithms in practical systems. The outcomes are intended to contribute to the modernisation and transformation of critical infrastructures into smart systems, delivering more reliable, efficient and cost-effective services.Read moreRead less
Compressed network sharing for large-scale distributed systems. The project will make the critical theoretical advances to enable the building of large-scale machine-to-machine communications systems. This will be the essential precursor to technologies for constructing Australia’s intelligent infrastructure and smart cities.
Scaling Up Satellite Communications for the Internet of Things. The Internet of Things (IoT) is a revolution in sensing and automation that is becoming vital for industries including farming and mining. However, in remote areas, it is especially challenging to connect the large numbers of devices needed. This project will develop novel signal processing and communications approaches to deliver high quality data services to vast numbers of remote IoT devices, distributed over continental scales c ....Scaling Up Satellite Communications for the Internet of Things. The Internet of Things (IoT) is a revolution in sensing and automation that is becoming vital for industries including farming and mining. However, in remote areas, it is especially challenging to connect the large numbers of devices needed. This project will develop novel signal processing and communications approaches to deliver high quality data services to vast numbers of remote IoT devices, distributed over continental scales connected via low earth orbit (LEO) satellite constellations. It will provide the tools for LEO satellite service providers to dimension their networks and assist IoT providers to scale their remote sensor networks and IoT deployments, with ever increasing demand on the limited satellite bandwidth.Read moreRead less
Gigabit wireless multiple access at E-band. This project will develop the theoretical advances that will lead to the creation of gigabit wireless multiple access networks, with data rates at least two orders of magnitude faster than current wireless networks. This will enable cost-effective 'last mile' links to the national broadband network in densely populated urban areas and in rural and regional Australia.