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
Eco-NextNet: An Ecologically-Inspired Adaptive Network Resource Management Framework for a Sustainable Next Generation Mobile Network for Ubiquitous Services. Ubiquitous communications service is the most important element of today's societies. In urban and rural areas of the country as well as at the time of natural disasters such as bushfires, floods, cyclones, it is vital to devise alternative schemes to create and sustain on-demand telecommunications services. In most cases it is not the lac ....Eco-NextNet: An Ecologically-Inspired Adaptive Network Resource Management Framework for a Sustainable Next Generation Mobile Network for Ubiquitous Services. Ubiquitous communications service is the most important element of today's societies. In urban and rural areas of the country as well as at the time of natural disasters such as bushfires, floods, cyclones, it is vital to devise alternative schemes to create and sustain on-demand telecommunications services. In most cases it is not the lack of technology that hinders the implementation of a reliable communications service, but it is the resource allocation. In this project we propose a novel sustainable resource management framework inspired by natural ecological systems to solve the above problem. Upon completion, Australia will be in forefront of technologies related to the management of complex networks.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
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
Enabling wide area mm-wave mobile broadband networks. This project will define a new architecture and algorithms based around a network of access points with overlapping coverage that will support broadband, wide-area services to mobile users in mm-wave bands. The project will develop tools to characterise the information carrying capacity of this network, and tradeoffs between key parameters. The outcomes will be used by Mobile Network Operators in planning their deployments and developing thei ....Enabling wide area mm-wave mobile broadband networks. This project will define a new architecture and algorithms based around a network of access points with overlapping coverage that will support broadband, wide-area services to mobile users in mm-wave bands. The project will develop tools to characterise the information carrying capacity of this network, and tradeoffs between key parameters. The outcomes will be used by Mobile Network Operators in planning their deployments and developing their operations software to deliver diverse and flexible data services. The benefit will be an unlocking of radio spectrum beyond isolated hot spots, supporting vastly greater traffic densities and data rates worth billions of dollars to the economy.
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What to do about WiFi Congestion? New methods for dense, wireless networks. This project aims to design and analyse new protocols for (wireless) WiFi networks. The demand on current WiFi networks is escalating at a tremendous rate. WiFi uses the unlicensed radio spectrum, so innovation can occur more easily over WiFi than over carrier-owned networks. WiFi also provides data offloading from severely congested cellular wireless networks. Unfortunately, the current WiFi multiple access protocols we ....What to do about WiFi Congestion? New methods for dense, wireless networks. This project aims to design and analyse new protocols for (wireless) WiFi networks. The demand on current WiFi networks is escalating at a tremendous rate. WiFi uses the unlicensed radio spectrum, so innovation can occur more easily over WiFi than over carrier-owned networks. WiFi also provides data offloading from severely congested cellular wireless networks. Unfortunately, the current WiFi multiple access protocols were not designed to handle closely packed WiFi networks and the resulting interference. This project takes a novel approach to develop algorithms that are much more robust to interference, and which use simple, distributed mechanisms to feed channel state information back from the receiver to the transmitter to maximise performance.Read moreRead less
Airborne Base Station Communication Systems: Capacity and Optimization. This project will fundamentally characterise and optimize information gathering, dissemination, and communication capacities of airborne base stations to enable low latency communications in rural and remote areas. New technologies such as precision farming, safe remote equipment operation in mining, and wide area surveillance and security, require low latency communications that are an order of magnitude beyond what is curr ....Airborne Base Station Communication Systems: Capacity and Optimization. This project will fundamentally characterise and optimize information gathering, dissemination, and communication capacities of airborne base stations to enable low latency communications in rural and remote areas. New technologies such as precision farming, safe remote equipment operation in mining, and wide area surveillance and security, require low latency communications that are an order of magnitude beyond what is currently available from satellite links. The expected outcome will be radically new base station deployment and flight path planning, and data transmission technologies. These will unlock new application technologies by enabling secure wide-spread communications coverage, delivering economic benefits to remote Australia.Read moreRead less
Information-theoretic capacity of outdoor mm-wave wireless communications. This project aims to fundamentally characterise the practical information carrying capacity of future mm-wave wireless communication networks. The mm-wave spectrum offers 10-100 times the bandwidth used by current mobile networks, but comes with many challenges. An information theoretic model will be developed incorporating state of the art mm-wave channel models, and practical engineering implementation constraints. The ....Information-theoretic capacity of outdoor mm-wave wireless communications. This project aims to fundamentally characterise the practical information carrying capacity of future mm-wave wireless communication networks. The mm-wave spectrum offers 10-100 times the bandwidth used by current mobile networks, but comes with many challenges. An information theoretic model will be developed incorporating state of the art mm-wave channel models, and practical engineering implementation constraints. The expected outcome will be new network designs and data transmission technologies that unlock the spectrum by enabling secure outdoor mobile cellular deployments with wide-spread coverage. This will support vastly greater traffic densities and data rates.Read moreRead less
Design of rateless network coded future wireless cellular systems. High speed future communication networks are critical tools for achieving economic sustainability and could have a far-reaching impact on the Australian economy. The proposed program will have the potential to transform future wireless communication systems and bring considerable technical, economic and environmental benefits.