Next-Generation OFDM Communication Systems: Analysis and Design for the Physical Layer. Next-generation orthogonal frequency-division multiplexed (OFDM) systems represent the future of broadband wireless access technology. Such systems are vital to Australia's future infrastructure and growing economy by providing more bandwidth with greater flexibility for new broadband applications. The research outcomes from this project will help enable future OFDM systems, and thus directly benefit Austra ....Next-Generation OFDM Communication Systems: Analysis and Design for the Physical Layer. Next-generation orthogonal frequency-division multiplexed (OFDM) systems represent the future of broadband wireless access technology. Such systems are vital to Australia's future infrastructure and growing economy by providing more bandwidth with greater flexibility for new broadband applications. The research outcomes from this project will help enable future OFDM systems, and thus directly benefit Australia. Development of cutting-edge information technology know-how will enhance Australia's international ICT reputation. Valuable research training of highly-skilled Australian students is another important benefit.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE140100550
Funder
Australian Research Council
Funding Amount
$358,248.00
Summary
Quantum refinement of DNA X-ray structures. DNA carries the genetic map of life and refinement of its x-ray structures is a key tool to understand its functions. Standard refinement, however, relies strongly on empirical geometry constraints, and it is known that these can induce unphysical features. Quantum mechanical (QM) methods have now evolved to a level that offers an intriguing way out of this dilemma. In this project, state-of-the-art QM methods will be applied to DNA x-ray structures, a ....Quantum refinement of DNA X-ray structures. DNA carries the genetic map of life and refinement of its x-ray structures is a key tool to understand its functions. Standard refinement, however, relies strongly on empirical geometry constraints, and it is known that these can induce unphysical features. Quantum mechanical (QM) methods have now evolved to a level that offers an intriguing way out of this dilemma. In this project, state-of-the-art QM methods will be applied to DNA x-ray structures, and a unique quantum refinement scheme will be developed. Such a scheme will provide crystallographers with a new tool to determine DNA structures with greater accuracy and it will offer benefits to many areas of the life sciences that depend on such accurate structures.Read moreRead less
Robust Optimal Asset Liability Management via Stochastic Control Theory. The Australian federal and state governments are strongly exposed to the Australian and international investment markets, either directly or through entities such as the Future Fund, state-owned insurers and superannuation schemes. Additionally, the investment pool represented by individual Australian's superannuation savings managed by non-government organisations is significant. Robust and effective management of these ....Robust Optimal Asset Liability Management via Stochastic Control Theory. The Australian federal and state governments are strongly exposed to the Australian and international investment markets, either directly or through entities such as the Future Fund, state-owned insurers and superannuation schemes. Additionally, the investment pool represented by individual Australian's superannuation savings managed by non-government organisations is significant. Robust and effective management of these assets in order to meet future liabilities of these funds are essential to a stable Australian economy. This research has the potential to be a key component of reliable investment management, helping make Australia an important investment hub.Read moreRead less
Control of Markov jumping processes with constraints. The project outcomes will constitute the set of tools for modelling and optimisation of complex stochastic systems and will lead to new and more precise characterisations of optimal behaviour of complex controllable systems arising in Resource Management, Engineering and Telecommunications. Therefore, the project fits to the research priority areas Breakthrough Science and Frontier Technologies in the topic of mathematical modelling and optim ....Control of Markov jumping processes with constraints. The project outcomes will constitute the set of tools for modelling and optimisation of complex stochastic systems and will lead to new and more precise characterisations of optimal behaviour of complex controllable systems arising in Resource Management, Engineering and Telecommunications. Therefore, the project fits to the research priority areas Breakthrough Science and Frontier Technologies in the topic of mathematical modelling and optimisation of Complex Systems.Read moreRead less
The elusive upper bound of heat transfer in horizontal convection. The question as to whether lateral variation in global ocean buoyancy resulting from low solar radiation near the poles and higher temperatures in the tropical regions (known as horizontal convection) is a driver for global ocean currents is critical to our understanding of this complex and delicate system that maintains Earth's temperate climate. This question hinges on the relationship between heat transport and strength of buo ....The elusive upper bound of heat transfer in horizontal convection. The question as to whether lateral variation in global ocean buoyancy resulting from low solar radiation near the poles and higher temperatures in the tropical regions (known as horizontal convection) is a driver for global ocean currents is critical to our understanding of this complex and delicate system that maintains Earth's temperate climate. This question hinges on the relationship between heat transport and strength of buoyancy forcing towards global scales; this project proposes a landmark experimental effort supported by detailed simulations to probe the ultimate regime of heat transport in horizontal convection. The project is expected to inform the direction of future ocean and climate modelling efforts to the benefit of humanity.Read moreRead less
Computational Nanofluidics. This project will generate an increased level of skill and expertise in Australia in the emerging science of nanotechnology. To realise the promise of nanotechnology, a means of controlled propulsion on the nano scale is vital. A deeper understanding of nanofluidics that allows greater predictive capacities can greatly aid this realisation. It is highly likely that computational nanofluidics will play as important a role in nanotechnology based industries as computat ....Computational Nanofluidics. This project will generate an increased level of skill and expertise in Australia in the emerging science of nanotechnology. To realise the promise of nanotechnology, a means of controlled propulsion on the nano scale is vital. A deeper understanding of nanofluidics that allows greater predictive capacities can greatly aid this realisation. It is highly likely that computational nanofluidics will play as important a role in nanotechnology based industries as computational fluid dynamics (CFD) currently plays in today's manufacturing, automotive and aerospace industries. The skills and knowledge gained from this project will enhance our international competitiveness in this area. Read moreRead less
Accurate quantum modeling of the van der Waals interaction and its application to molecular physisorption onto surfaces. Developing zero emission clean fuel technology for transportation and developing sensitive diagnostic markers for medical diagnosis will clearly benefit Australia. In both cases large technological challenges need to be overcome. This investigation will provide theoretical insight and understanding into the molecular processes which underpin these highly desirable technologies ....Accurate quantum modeling of the van der Waals interaction and its application to molecular physisorption onto surfaces. Developing zero emission clean fuel technology for transportation and developing sensitive diagnostic markers for medical diagnosis will clearly benefit Australia. In both cases large technological challenges need to be overcome. This investigation will provide theoretical insight and understanding into the molecular processes which underpin these highly desirable technologies and aid scientists and engineers in their development. A further, more general, outcome will be an accurate and predictive methodology for investigating nanotechnology problems in any material where molecular physisorption is an important process.Read moreRead less
Fundamental Theoretical Study of Hydrogen Interactions with Novel Nanostructures. While governments around the world are planning to implement a hydrogen-based energy economy in the next several decades, the delivery of practical hydrogen energy technology has proven elusive to date, with major developments required in the production, storage and transport of hydrogen. This research will undertake to provide one key step in the development of safe and efficient hydrogen storage, namely a fundam ....Fundamental Theoretical Study of Hydrogen Interactions with Novel Nanostructures. While governments around the world are planning to implement a hydrogen-based energy economy in the next several decades, the delivery of practical hydrogen energy technology has proven elusive to date, with major developments required in the production, storage and transport of hydrogen. This research will undertake to provide one key step in the development of safe and efficient hydrogen storage, namely a fundamental study delivering basic knowledge of hydrogen interactions with nano-structured materials constructed from inexpensive light metals such as Aluminium.Read moreRead less
Understanding and controlling the processes underlying self assembly of nanostructures on surfaces. Efficient clean fuel technology, new classes of nano- and bio-materials, bio specific drug delivery systems, efficient environmental remediation technologies, advanced catalytic applications, namely every area of technology would benefit from the ability to control self-assembly of matter at the atomic level during fabrication of nanodevices. This proposal seeks to understand the processes driving ....Understanding and controlling the processes underlying self assembly of nanostructures on surfaces. Efficient clean fuel technology, new classes of nano- and bio-materials, bio specific drug delivery systems, efficient environmental remediation technologies, advanced catalytic applications, namely every area of technology would benefit from the ability to control self-assembly of matter at the atomic level during fabrication of nanodevices. This proposal seeks to understand the processes driving self-assembly of nanomaterials and how to control these processes.Read moreRead less
A theoretical hierachy to investigate the electronic behaviour of graphene nanostructures under realistic conditions. One of the most exciting new nano-materials is graphene which promises to be the basis of a new industry producing nano-electronics and nano-devices such as chemical sensors. This project aims to provide sound scientific knowledge on the effects of environmental conditions on the properties of graphene which are vital for its industrial use.