New Methods and Microelectronics for Wireless Communication Systems. Global demand for high quality wireless communications poses significant challenges. The so-called "physical layer" is crucial, as this is where the vagaries of the wireless channel, including interference and limited bandwidth, are mitigated by sophisticated signal processing.
This project will conduct applied research to meet these physical layer challenges, providing solutions that feed directly into next generation wirel ....New Methods and Microelectronics for Wireless Communication Systems. Global demand for high quality wireless communications poses significant challenges. The so-called "physical layer" is crucial, as this is where the vagaries of the wireless channel, including interference and limited bandwidth, are mitigated by sophisticated signal processing.
This project will conduct applied research to meet these physical layer challenges, providing solutions that feed directly into next generation wireless communication systems.
Uniquely, this project focuses on the transfer of research from theoretical genesis, through to realisation of silicon integrated
circuit "chips". This will maximise both the impact of the research
and the potential for significant national economic benefits to accrue.Read moreRead less
Global Lithospheric Architecture Mapping II. The continents have been rifted, or broken up, and collided, or re-assembled, along major zones of weakness many times throughout Earth's history. Boundaries between such continental domains focus large-scale movements of fluids that can produce giant ore deposits. This study will provide new perspectives on the localisation of world-class economic deposits, the Earth resources on which society depends. Innovations in imaging the deep Earth beneath co ....Global Lithospheric Architecture Mapping II. The continents have been rifted, or broken up, and collided, or re-assembled, along major zones of weakness many times throughout Earth's history. Boundaries between such continental domains focus large-scale movements of fluids that can produce giant ore deposits. This study will provide new perspectives on the localisation of world-class economic deposits, the Earth resources on which society depends. Innovations in imaging the deep Earth beneath continents, and in numerical modelling, will maintain our high international profile in research relevant to National Priority 1.6 (Developing Deep Earth Resources). Unique 3D geological maps of regions down to 250km will make the composition of deep Earth regions newly accessible to geoscientists and all potential endusers.Read moreRead less
Spectrum efficient wireless technologies for 5G cellular networks. Spectrum efficient wireless technologies for 5G cellular networks. This project aims to design future generation wireless network technologies for 5G cellular networks, whose new and advanced spectrum and interference management technologies can improve the network capacity and radio spectrum efficiency. This is pressing, as the current fourth generation (4G) cellular communications technology will soon not be able to meet increa ....Spectrum efficient wireless technologies for 5G cellular networks. Spectrum efficient wireless technologies for 5G cellular networks. This project aims to design future generation wireless network technologies for 5G cellular networks, whose new and advanced spectrum and interference management technologies can improve the network capacity and radio spectrum efficiency. This is pressing, as the current fourth generation (4G) cellular communications technology will soon not be able to meet increasing demands for high-speed wireless access. This project is intended to bring revolutionary change in the mobile wireless communications and benefit billions of people worldwide.Read moreRead less
Massive connectivity and low latency machine-to-machine communications. Massive connectivity and low latency machine-to-machine communications. This project aims to develop communications protocols and algorithms to enable energy-efficient, reliable and low latency machine-to-machine (M2M) networks, connecting a massive number of heterogeneous machine type devices. M2M communications are key to unlocking the Internet of Things’s potential to improve economic productivity and life quality. This p ....Massive connectivity and low latency machine-to-machine communications. Massive connectivity and low latency machine-to-machine communications. This project aims to develop communications protocols and algorithms to enable energy-efficient, reliable and low latency machine-to-machine (M2M) networks, connecting a massive number of heterogeneous machine type devices. M2M communications are key to unlocking the Internet of Things’s potential to improve economic productivity and life quality. This project will develop new theories and devise a proof-of-concept M2M test-bed to evaluate and verify the proposed technologies. The intended outcomes of the project are to contribute to the global standardisation of M2M networks and the new type of world-class wireless infrastructure, as an integral part of the emerging digital society.Read moreRead less
Constant Envelope and Coded Modulation for Terrestrial and Satellite Radio. Modems for portable radio terminals must take advantage of state-of-the-art digital communications in order to stay commercially competitive. In particular they need to utilize less bandwidth and power for a fixed data rate. The approach here is to employ a parallel configuration of highly efficient error control codes, together with bandwidth efficient continuous phase modulation (CPM). The theoretical performance of su ....Constant Envelope and Coded Modulation for Terrestrial and Satellite Radio. Modems for portable radio terminals must take advantage of state-of-the-art digital communications in order to stay commercially competitive. In particular they need to utilize less bandwidth and power for a fixed data rate. The approach here is to employ a parallel configuration of highly efficient error control codes, together with bandwidth efficient continuous phase modulation (CPM). The theoretical performance of such a system is to be investigated using a novel information-theoretic technique, and the system will be optimised in terms of coding scheme and CPM complexity.Read moreRead less
Reconciliation strategies for continuous variable quantum key distribution. This project aims to advance a novel key distribution method, called quantum key distribution, which distributes secure keys using the quantum state of optical channels. Key distribution is a foundational part of data security, allowing digital keys to be securely exchanged between two or more parties, before they are used to protect and share information. The expected outcome is new rateless error correction codes desi ....Reconciliation strategies for continuous variable quantum key distribution. This project aims to advance a novel key distribution method, called quantum key distribution, which distributes secure keys using the quantum state of optical channels. Key distribution is a foundational part of data security, allowing digital keys to be securely exchanged between two or more parties, before they are used to protect and share information. The expected outcome is new rateless error correction codes designed specifically to implement quantum key distribution over long distances. Quantum key distribution is beneficial for ultra-secure communications as it avoids the vulnerability to weak random numbers and quantum-computing brute force attacks that currently threated the security of data protected by existing methods. Read moreRead less
A Mathematical Approach to Flexible Management of Open Pit Mines with Uncertain Geology and Unpredictable Demand. This project will create new mathematical algorithms to flexibly manage open pit mining projects. The development of strategic plans for mining operations is a highly complex task, based on incomplete geological information and uncertain future commodity demand. The smart mathematics we create will allow Australia to capitalise on upturns in international demand, while limiting unavo ....A Mathematical Approach to Flexible Management of Open Pit Mines with Uncertain Geology and Unpredictable Demand. This project will create new mathematical algorithms to flexibly manage open pit mining projects. The development of strategic plans for mining operations is a highly complex task, based on incomplete geological information and uncertain future commodity demand. The smart mathematics we create will allow Australia to capitalise on upturns in international demand, while limiting unavoidable negative outcomes, by flexibly adjusting the mining operation to prevailing geological and economic conditions. Australia's mineral exports are worth over $50b annually to the Australian economy. Our techniques will better manage Australia's mining projects and capture new, emerging markets, significantly impacting on Australia's balance of trade.Read moreRead less
Trace element analysis of diamond: new applications to diamond fingerprinting and genesis. The project will provide new insights into the processes by which diamond crystallises in the Earth's mantle. A better understanding of these processes can lead to improved models and techniques for diamond exploration, enhancing the prospect of finding new deposits in Australia and abroad. The project will test the potential of trace-element microanalysis to fingerprint diamonds by source. If successful ....Trace element analysis of diamond: new applications to diamond fingerprinting and genesis. The project will provide new insights into the processes by which diamond crystallises in the Earth's mantle. A better understanding of these processes can lead to improved models and techniques for diamond exploration, enhancing the prospect of finding new deposits in Australia and abroad. The project will test the potential of trace-element microanalysis to fingerprint diamonds by source. If successful, this technology will provide economic benefits by reducing theft and illegal mining, which represent significant losses to legitimate companies. Application of this Australian development could reduce the circulation of "conflict diamonds", which would have real social benefits worldwide, especially in some developing countries.Read moreRead less
Carbothermal synthesis of titanium carbide. The project's ultimate aim is to develop a comprehensive understanding of carbothermal reduction of titania and ilmenite for titanium carbide production. The projects findings will be of importance to improving the efficiency of carbothermal reduction processes, which are major technologies in ferrous metallurgy, and to the development of titanium industry in Australia.
Australia is the world largest producer of rutile and ilmenite, which are mainly s ....Carbothermal synthesis of titanium carbide. The project's ultimate aim is to develop a comprehensive understanding of carbothermal reduction of titania and ilmenite for titanium carbide production. The projects findings will be of importance to improving the efficiency of carbothermal reduction processes, which are major technologies in ferrous metallurgy, and to the development of titanium industry in Australia.
Australia is the world largest producer of rutile and ilmenite, which are mainly sold overseas and partly processed to titania pigment. Development of the cost-efficient technology for titanium carbide will stimulate a domestic production of this advanced material, what will add enormously to the value of titanium minerals.Read moreRead less
Utilisation of manganese sludge in production of manganese alloys. Australia possesses one of the world's best deposits of manganese ore, and has the potential to increase production of manganese alloys. This depends strongly on the competitiveness of Australian manganese industry. Deposition of manganese sludge, which is formed in ferroalloy furnaces, in fume dams in Bell Bay is costly, occupies valuable land, and causes an environmental concern. Utilisation of manganese sludge back into ferroa ....Utilisation of manganese sludge in production of manganese alloys. Australia possesses one of the world's best deposits of manganese ore, and has the potential to increase production of manganese alloys. This depends strongly on the competitiveness of Australian manganese industry. Deposition of manganese sludge, which is formed in ferroalloy furnaces, in fume dams in Bell Bay is costly, occupies valuable land, and causes an environmental concern. Utilisation of manganese sludge back into ferroalloy furnace will make operation of Tasmanian Electro Metallurgical Company more efficient, sustainable and will stimulate further development of manganese industry in Australia. Read moreRead less