Discovery Early Career Researcher Award - Grant ID: DE120101266
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Low-complexity factor-graph-based receiver design for bandwidth-efficient communication systems over doubly selective channels. This project aims to solve challenging problems in future wireless communications using graph-based signal processing techniques. It will provide practical solutions for future broadband mobile communications to the bush and high-speed underwater acoustic communications in the oceans that are particularly important to Australia.
Optimising throughput and Delay in network coded systems. This project addresses one main disadvantage of network coding: decoding delay. By solving this issue, we will unlock the true potential of network coding: delivery of high data rates in wireless and wireline networks. This will make network coding an attractive choice for live video streaming and mission-critical delay-sensitive applications.
New high-performance iterative error correction codes. This project develops new error correction codes to underpin the success of next-generation communications technologies. The nature of the project presents significant potential for project outcomes to be beneficial to the Australian telecommunications industry in a wide range of application areas from optical communication to digital broadcasting.
Multiple-input, multiple-output short range optical communications: a broadband solution with virtually unlimited bandwidth. This project will develop new short range communications systems with virtually unlimited bandwidth and combine the speed of optical communications with the convenience of wireless. Applications range from rapid data download to portable devices such as smart phones, to communications within very high speed computers.
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
Easing the Squeeze: Dynamic and Distributed Resource Allocation with Cognitive Radio. The radio spectrum is a scarce and valuable natural resource which is being squeezed by the rapid growth in wireless communications. Cognitive radios make efficient use of radio spectrum by dynamically reusing frequencies. This requires cognitive radios to sense the local environment and to control the interference caused to existing users of the spectrum. This project will design novel dynamic and distributed ....Easing the Squeeze: Dynamic and Distributed Resource Allocation with Cognitive Radio. The radio spectrum is a scarce and valuable natural resource which is being squeezed by the rapid growth in wireless communications. Cognitive radios make efficient use of radio spectrum by dynamically reusing frequencies. This requires cognitive radios to sense the local environment and to control the interference caused to existing users of the spectrum. This project will design novel dynamic and distributed resource allocation algorithms for cognitive radios in order to significantly improve their performance using techniques from extreme value theory, game theory and mechanism design and large random matrix theory. 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.
Software Defined Networking: Transforming Emergency Operations. The project aims to improve the effectiveness and efficiency of Australia's emergency operations, for example, bushfire and rescue missions, by providing robust and integrated communications systems for police and the emergency services. Emergency communications systems are currently fragmented by the different technologies, creating disconnected islands of information. The project aims to provide techniques that allow multiple wire ....Software Defined Networking: Transforming Emergency Operations. The project aims to improve the effectiveness and efficiency of Australia's emergency operations, for example, bushfire and rescue missions, by providing robust and integrated communications systems for police and the emergency services. Emergency communications systems are currently fragmented by the different technologies, creating disconnected islands of information. The project aims to provide techniques that allow multiple wireless technologies to communicate seamlessly using modern software-defined networking solutions.Read moreRead less
Autoconfiguration of critical network infrastructure. In 2000, Vitek Boden hacked into Maroochy Shire's sewerage system, causing hundreds of kilolitres of raw sewage to flow into a public area, causing financial and environmental damage, and the potential for the spread of life-threatening disease. The goal of this project is to improve the security of Australia's critical infrastructure, for instance, electricity and water supply. The project’s approach is to simplify the critical bottlenecks i ....Autoconfiguration of critical network infrastructure. In 2000, Vitek Boden hacked into Maroochy Shire's sewerage system, causing hundreds of kilolitres of raw sewage to flow into a public area, causing financial and environmental damage, and the potential for the spread of life-threatening disease. The goal of this project is to improve the security of Australia's critical infrastructure, for instance, electricity and water supply. The project’s approach is to simplify the critical bottlenecks in communication between plant equipment and company management, namely, the firewall that protects the critical plant equipment from viruses and hackers. Simplification will improve transparency and hence reduce the possibility that security holes allow an incident similar to that of this incident, or worse.Read moreRead less