Accurate Location Service for 3G Cellular Networks. The project aims to improve the accuracy of automatic location identification of GPS enabled handsets in third-generation cellular networks via a modified Differential GPS method. The proposed sub-metre location ability will be a value-added service of the network providers and will appeal to a wide sector of users. The challenge is to develop a cost effective solution by utilising existing network infrastructure. We propose to use the GPS timi ....Accurate Location Service for 3G Cellular Networks. The project aims to improve the accuracy of automatic location identification of GPS enabled handsets in third-generation cellular networks via a modified Differential GPS method. The proposed sub-metre location ability will be a value-added service of the network providers and will appeal to a wide sector of users. The challenge is to develop a cost effective solution by utilising existing network infrastructure. We propose to use the GPS timing units in 3G networks for deriving local GPS position corrections; and to transfer these corrections to the users via the 3G data bursts of the beacons or other user data broadcasts.Read moreRead less
Packet Based Multiservice Traffic Support in a Wideband Code Division Multiple Access Network. This project will investigate the problem of multiservice traffic transmission on 3G (Third Generation) WCDMA (Wideband Code Division Multiple Access) based wireless networks. In particular, this work will study the problem of supporting multimedia traffic sources such as audio, video and data using the variable rate transmission techniques to maximise traffic capacity of a wireless network. The projec ....Packet Based Multiservice Traffic Support in a Wideband Code Division Multiple Access Network. This project will investigate the problem of multiservice traffic transmission on 3G (Third Generation) WCDMA (Wideband Code Division Multiple Access) based wireless networks. In particular, this work will study the problem of supporting multimedia traffic sources such as audio, video and data using the variable rate transmission techniques to maximise traffic capacity of a wireless network. The project will also develop a comprehensive discrete event simulation model of a WCDMA based wireless network to study the performance of the network using different advanced traffic sources.Read moreRead less
Development of a new transport layer protocol to provide secure broadband internet connections via satellite to rural and remote areas. Satellite links form an essential part of broadband connectivity to rural and remote areas. Effective use of the internet over satellite links is therefore essential if B2B (Business-to-Business) and B2C (Business-to-Consumer) E-commerce is to develop in these areas. In many application networks, particularly virtual private networks (VPN), secure transmission ....Development of a new transport layer protocol to provide secure broadband internet connections via satellite to rural and remote areas. Satellite links form an essential part of broadband connectivity to rural and remote areas. Effective use of the internet over satellite links is therefore essential if B2B (Business-to-Business) and B2C (Business-to-Consumer) E-commerce is to develop in these areas. In many application networks, particularly virtual private networks (VPN), secure transmission is important to avoid fraud and maintain privacy.
Satellite links introduce a long delay (latency) in the transmission path and existing secure internet protocols do not handle this well. This is because in many situations, it is a requirement that the secure connection be implemented not only independently of the
satellite service provider but also in a reliable and efficient way.
This project will develop new practical solutions so that secure and reliable end-to-end connections can be provided over the satellite links.
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Incorporating network-level knowledge into Quality of Service control mechanisms for wireless LANs. Expansion of Wireless LANs as primary access technology for mobile computing devices has resulted in growing expectations of continuous area coverage and controlled Quality of Service. The work published to date defines QoS control mechanisms for a single WLAN cell, but fails to address challenges of multiple-cell networks. We aim at designing network-wide resource management mechanisms to dynamic ....Incorporating network-level knowledge into Quality of Service control mechanisms for wireless LANs. Expansion of Wireless LANs as primary access technology for mobile computing devices has resulted in growing expectations of continuous area coverage and controlled Quality of Service. The work published to date defines QoS control mechanisms for a single WLAN cell, but fails to address challenges of multiple-cell networks. We aim at designing network-wide resource management mechanisms to dynamically allocate resources to cells and users, taking into account user mobility and radio interference between multiple cells. Benefits from this research include competitive advantage to operators who will be able to differentiate service offerings and guarantee agreed QoS to their customers.Read moreRead less
Design of network coding schemes for the next generation of wireless cellular systems. Network coding schemes are expected to become one of the key radio technologies and could have a far-reaching impact on the Australian economy. The proposed program will contribute to theory and development of network coding techniques and their application in future wireless networks.
Adaptive Transmitters in Wireless Communication Networks. The mobile Internet requires at least an order of magnitude
lager data rate to be delivered to the mobile user rather
then from the mobile user. This high level of capacity asymmetry is a
challenge for current cellular mobile systems being designed for duplex telephony with equal capacity from
and to the mobile user. In this project an adaptive transmitter-receiver
algorithm is proposed. The algorithm will provide a significan ....Adaptive Transmitters in Wireless Communication Networks. The mobile Internet requires at least an order of magnitude
lager data rate to be delivered to the mobile user rather
then from the mobile user. This high level of capacity asymmetry is a
challenge for current cellular mobile systems being designed for duplex telephony with equal capacity from
and to the mobile user. In this project an adaptive transmitter-receiver
algorithm is proposed. The algorithm will provide a significant capacity increase of the future mobile Internet and wireless local area networks (LANs). The project addresses optimum protocols for the mobile channel resource allocation in conjunction to the optimum transmitter-receiver design.Read moreRead less
RAINBOW - RAdIo Networks Based On machine learning for situation aWareness. This project aims to develop software-defined and cognitive radio networks (SDR) to detect adversarial communications and achieve situation awareness on radio frequency (RF) spectrum. The project will generate novel SDR architectures and new attack-resistant detection algorithms through innovative approaches combining machine learning and game theory. Expected outcomes include a strategic alliance between the University ....RAINBOW - RAdIo Networks Based On machine learning for situation aWareness. This project aims to develop software-defined and cognitive radio networks (SDR) to detect adversarial communications and achieve situation awareness on radio frequency (RF) spectrum. The project will generate novel SDR architectures and new attack-resistant detection algorithms through innovative approaches combining machine learning and game theory. Expected outcomes include a strategic alliance between the University of Melbourne and the Northrop Grumman Corporation. Among significant benefits, the project will improve cybersecurity of RF spectrum as a national asset, help protect critical infrastructure relying on wireless networks such as telecommunications and defence, and build skills in cybersecurity and Artificial Intelligence.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
Integration of Wireless LAN and GPRS/UMTS Cellular Systems. Integration of wireless local area networks with cellular mobile systems provides a feasible, reliable, and cost-effective way for high-speed mobile Internet access in wide area networks. In this project in collaboration with Australia's second largest telecommunications company; Optus, we will develop network architecture and essential access and mobility techniques for such a system. The project's outcomes will enable Optus to expand ....Integration of Wireless LAN and GPRS/UMTS Cellular Systems. Integration of wireless local area networks with cellular mobile systems provides a feasible, reliable, and cost-effective way for high-speed mobile Internet access in wide area networks. In this project in collaboration with Australia's second largest telecommunications company; Optus, we will develop network architecture and essential access and mobility techniques for such a system. The project's outcomes will enable Optus to expand its broadband mobile Internet service to all parts and population of the country including rural and regional areas and subsequently export the breakthrough technology resulted from the project to overseas.Read moreRead less
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