Removing the blur: Guidestar lasers for the space industry . The speed and quality of transferring information between earth and space can be greatly enhanced by adaptive optical systems that provide correction for atmospheric aberrations. The laser-generated guidestars that lie at the heart of these systems must be bright, preferably multi-coloured and with low background. By taking advantage of the unique optical properties of diamond, this project aims to develop lasers that produce these adv ....Removing the blur: Guidestar lasers for the space industry . The speed and quality of transferring information between earth and space can be greatly enhanced by adaptive optical systems that provide correction for atmospheric aberrations. The laser-generated guidestars that lie at the heart of these systems must be bright, preferably multi-coloured and with low background. By taking advantage of the unique optical properties of diamond, this project aims to develop lasers that produce these advanced features to fulfil the needs of the space industry sector. These outcomes are expected to create new services and products in the areas of space situational awareness, space debris management and satellite communications, and have major spin-off benefits to astronomy and defence.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
Integration of broadband microwave photonic frequency convertors. This project aims to develop microwave photonic processors with increased bandwidth and unprecedented radio frequency signal processing. The new technology will enhance radar systems and electronic-warfare capabilities, and allow more flexible delivery of bandwidth for mobile communication systems. Benefits for Australian end-users and industry include improved surveillance for defence and revenue growth in companies working with ....Integration of broadband microwave photonic frequency convertors. This project aims to develop microwave photonic processors with increased bandwidth and unprecedented radio frequency signal processing. The new technology will enhance radar systems and electronic-warfare capabilities, and allow more flexible delivery of bandwidth for mobile communication systems. Benefits for Australian end-users and industry include improved surveillance for defence and revenue growth in companies working with the Australian defence forces.Read moreRead less
Integrated Feedback Control in Future Wireless Communication Networks. The aim of this project is to develop and analyse new feedback control methods to address emerging challenges in future wireless communication networks such as 5G. This new generation of mobile communications promises exceptional bandwidth, high reliability and low link delay. To achieve these leaps in performance, a paradigm shift to massive multiple-input-multiple-output (MIMO) antenna systems, very high frequency systems a ....Integrated Feedback Control in Future Wireless Communication Networks. The aim of this project is to develop and analyse new feedback control methods to address emerging challenges in future wireless communication networks such as 5G. This new generation of mobile communications promises exceptional bandwidth, high reliability and low link delay. To achieve these leaps in performance, a paradigm shift to massive multiple-input-multiple-output (MIMO) antenna systems, very high frequency systems and small cells is required. Critical feedback loops in areas such as narrow 3D beam steering for mobile users, control of multiflow systems must be developed to enable 5G communications to be successfully deployed. This new generation of communications is also expected to open up new control application domains, such as the use of vehicle-to-vehicle networks.Read moreRead less
Multipoint voltage sensor for high power distribution lines. This project will develop a new electric field sensor array for electricity transmission systems. The project proposes novel sensor designs based on hybrid technology; fibre optics and liquid crystals. Investment in student and researcher training will provide the industry, still in its early growth phase, with future human resources and strengthen research and development programs. The outcomes of this project will benefit our Austr ....Multipoint voltage sensor for high power distribution lines. This project will develop a new electric field sensor array for electricity transmission systems. The project proposes novel sensor designs based on hybrid technology; fibre optics and liquid crystals. Investment in student and researcher training will provide the industry, still in its early growth phase, with future human resources and strengthen research and development programs. The outcomes of this project will benefit our Australian-based Partner Organisation, Smart Digital Optics PTY LTD and will also increase Australian research expertise in the field of photonics materials.Read moreRead less
Mechanical stresses in holey fibres. The development of holey fibres constitutes arguably the most exciting development in fibre optics in recent years. We will analyze the mechanical stresses in these fibres, which, together with the optical calculations and associated experiments, will allow us to design novel fibre-based devices. This will allow Nufern to develop new products based on holey fibres.
Asset Intelligence: Maximising Operational Effectiveness for Digital Era . The primary aim of this project is to develop an innovative lifecycle semantic–based decision making approach through asset intelligence so as to maximize the operational effectiveness maintenance, repair and rehabilitation planning of infrastructure assets, such as concrete pavement. The research intends to address an important gap by providing logical formalisms and real-time capability to life-cycle asset information t ....Asset Intelligence: Maximising Operational Effectiveness for Digital Era . The primary aim of this project is to develop an innovative lifecycle semantic–based decision making approach through asset intelligence so as to maximize the operational effectiveness maintenance, repair and rehabilitation planning of infrastructure assets, such as concrete pavement. The research intends to address an important gap by providing logical formalisms and real-time capability to life-cycle asset information through computational intelligence. The expected outcome will be an intelligent asset management platform that provides structured and semantically enriched lifecycle asset information for optimised solutions to help reduce the cost, time and effort in asset information storage and retrieval, and decision-making. Read moreRead less
Microstructured polymer interconnects for photonic devices. Efficient interconnection of photonic components is the most critical research problem facing the photonics industry in its efforts for integration. In this project, interconnects for photonic systems will be developed, utilising a recently developed new class of fibres - microstructured optical fibres, which have been called 'the next generation' of optical fibres because of their ability to produce a variety of tailorisable optical ef ....Microstructured polymer interconnects for photonic devices. Efficient interconnection of photonic components is the most critical research problem facing the photonics industry in its efforts for integration. In this project, interconnects for photonic systems will be developed, utilising a recently developed new class of fibres - microstructured optical fibres, which have been called 'the next generation' of optical fibres because of their ability to produce a variety of tailorisable optical effects. Specially designed and modified microstructured fibres will be developed to achieve efficient coupling from fibre to planar waveguide circuits, and to a range of photonic band gap devices that are currently being developed by the industry partner.Read moreRead less
Creating a national time and frequency network for Australia. This project will develop the means to distribute accurate time and frequency across the Australian continent via an optical fibre network. This network will meet the needs of future telecommunications, science and astronomy projects including the Australian bid for the Square Kilometre Array radio-astronomy project.
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