High-performance real-time OS framework for low-power applications. Wireless network adapters, as they are being developed by Cisco, will find widespread use in the near future, as they are the basis of all mobile or otherwise disconnected intelligent devices. These devices must process data very rapidly, yet operate with minimal power consumption. We will develop operating system kernels that will support the secure, efficient and protected execution of the core processing firmware, and provide ....High-performance real-time OS framework for low-power applications. Wireless network adapters, as they are being developed by Cisco, will find widespread use in the near future, as they are the basis of all mobile or otherwise disconnected intelligent devices. These devices must process data very rapidly, yet operate with minimal power consumption. We will develop operating system kernels that will support the secure, efficient and protected execution of the core processing firmware, and provide application frameworks for the controlling higher software layers. We will also investigate and design hardware mechanisms that support the software while keeping power consumption minimal.Read moreRead less
Architecture-based Open Network Management Systems for Next Generation Telecommunications. We aim to develop an open, policy-based architecture for the management of next generation telecommunications networks. It is expected that a comprehensive Open Architecture-based Telecommunications Management Network (AuTuMN) framework could be put in place to manage the network based on centralised policies and roles rather than having to handle individual users and elements. Significantly, the scient ....Architecture-based Open Network Management Systems for Next Generation Telecommunications. We aim to develop an open, policy-based architecture for the management of next generation telecommunications networks. It is expected that a comprehensive Open Architecture-based Telecommunications Management Network (AuTuMN) framework could be put in place to manage the network based on centralised policies and roles rather than having to handle individual users and elements. Significantly, the scientific knowledge of open systems and network management systems for next generation networks will be extended.Read moreRead less
Multimedia content distribution over multihop broadband wireless networks. Multihop Wireless Networks are an ideal medium for Australia where low rural densities require both low set-up costs and environmentally robust infrastructure. Fundamental improvements to multihop wireless protocols will transform their current limited deployment, making them available to more Australians. This project will place Australia in the forefront of wireless network research and can strengthen the competitiv ....Multimedia content distribution over multihop broadband wireless networks. Multihop Wireless Networks are an ideal medium for Australia where low rural densities require both low set-up costs and environmentally robust infrastructure. Fundamental improvements to multihop wireless protocols will transform their current limited deployment, making them available to more Australians. This project will place Australia in the forefront of wireless network research and can strengthen the competitiveness of the Australian communication industry in the global wireless broadband market.Read moreRead less
An Innovative Framework and Techniques for Trusted Mobile Interaction. Emerging mobile applications such as mobile commerce, location-based services and wireless sensor networks promise to have an enormous impact in business, society, health and defence and be the next technological wave. However for successful real-world deployment, for reasons of privacy, safety and business efficacy users must be able to have trusted interactions. This project will contribute to Australia's ICT innovation and ....An Innovative Framework and Techniques for Trusted Mobile Interaction. Emerging mobile applications such as mobile commerce, location-based services and wireless sensor networks promise to have an enormous impact in business, society, health and defence and be the next technological wave. However for successful real-world deployment, for reasons of privacy, safety and business efficacy users must be able to have trusted interactions. This project will contribute to Australia's ICT innovation and international competitiveness by developing dynamic, generic, scalable and extensible techniques for trusted mobile interaction. Resulting benefits will be world-leading enabling technology facilitating the creation of novel mobile services and products with potential productivity benefits and export opportunities.Read moreRead less
Mobile Device Autoconfiguration. Todays cellular networks are built to optimise spectrum efficiency by combining specific codecs and matching bearer services. With general purpose mobile terminals that can access different network types the applications will break this optimisation by using generic codecs. This project aims at solving this problem by letting the access networks configure the terminals with the natively supported codecs and bearer service definitions. The project will lead to con ....Mobile Device Autoconfiguration. Todays cellular networks are built to optimise spectrum efficiency by combining specific codecs and matching bearer services. With general purpose mobile terminals that can access different network types the applications will break this optimisation by using generic codecs. This project aims at solving this problem by letting the access networks configure the terminals with the natively supported codecs and bearer service definitions. The project will lead to considerably higher cost effectiveness in the emerging mobile Internet.Read moreRead less
Participatory Wireless Sensor Networks. The investment in the Participatory Wireless Sensor Netwok (PWSN) research will ensure that Australia stays in the forefront of this innovative and disruptive technology. Since the PWSN concept leverages on the existing communication and sensing infrastructure, the entry cost for developing new business opportunities on it is low. There are ample opportunities for local companies (e.g. Internet service providers, mobile phone carriers and wireless service ....Participatory Wireless Sensor Networks. The investment in the Participatory Wireless Sensor Netwok (PWSN) research will ensure that Australia stays in the forefront of this innovative and disruptive technology. Since the PWSN concept leverages on the existing communication and sensing infrastructure, the entry cost for developing new business opportunities on it is low. There are ample opportunities for local companies (e.g. Internet service providers, mobile phone carriers and wireless service providers) and start-up companies to create innovative services on PWSN for both the Australian and overseas markets. Read moreRead less
Efficient Processing of Complex Spatial Queries. Similarity search and join are two of the most popular yet complex queiries in spatial databases. They are also two of the major spatial data analysis paradigms. To complement the existing techniques, this project aims to investigate a more complex and important form of these two problems, and to develop novel framework to approach the proposed problems. The successful achievements of the project will not only bring new spatial data analysis techn ....Efficient Processing of Complex Spatial Queries. Similarity search and join are two of the most popular yet complex queiries in spatial databases. They are also two of the major spatial data analysis paradigms. To complement the existing techniques, this project aims to investigate a more complex and important form of these two problems, and to develop novel framework to approach the proposed problems. The successful achievements of the project will not only bring new spatial data analysis techniques but also deliever effective solutions to a number of real-life apllications.Read moreRead less
Next Generation Ubiquitous Service Spaces. The challenges facing the next generation ubiquitous service computing come from scale and variability in user activities, services, and network connectivity. The project will deliver innovative, useful, and usable concepts and tools to allow provisioning of services in large scale, dynamic, and heterogeneous environments. This research will have significant benefits to Australia. It will strengthen research capabilities and provide an ideal opportunity ....Next Generation Ubiquitous Service Spaces. The challenges facing the next generation ubiquitous service computing come from scale and variability in user activities, services, and network connectivity. The project will deliver innovative, useful, and usable concepts and tools to allow provisioning of services in large scale, dynamic, and heterogeneous environments. This research will have significant benefits to Australia. It will strengthen research capabilities and provide an ideal opportunity to train postgraduate research students in cutting edge technologies. It will enhance smart information use for useful information sharing among individuals, private or public organisations. It will facilitate the development of IT solutions that help citizens be self-supported.Read moreRead less
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
Dynamical systems and iterative decoding of low-density parity-check codes. Modern telecommunication systems are increasingly built on principles of iteration and feedback. By contributing to the knowledge base of iterative telecommunication systems, this project addresses important fundamental problems in the area of telecommunications. The Federal Government has clearly indicated that it recognises the importance that information and communications technology (ICT) plays in the economic and so ....Dynamical systems and iterative decoding of low-density parity-check codes. Modern telecommunication systems are increasingly built on principles of iteration and feedback. By contributing to the knowledge base of iterative telecommunication systems, this project addresses important fundamental problems in the area of telecommunications. The Federal Government has clearly indicated that it recognises the importance that information and communications technology (ICT) plays in the economic and social fabric of Australia, through the recent Innovation Action Plan, Backing Australia's Ability. These technologies are key drivers of the information economy, the spawning of new businesses, the transformation of established industries, the opening up of new export markets, and the creation of new jobs.Read moreRead less