Architectures and System Technologies for Intelligent Photonic Packet Routers. The photonic packet switching in future all-optical IP centric networks can provide the much needed bandwidth granularity and optimal data transport architectures. Through the adaptation of multi-protocol label switching (MPLS) compatible photonic label switching concepts, photonic packet routers can be easily realised. As part of this project we will develop subsystem technologies for header processing with integrate ....Architectures and System Technologies for Intelligent Photonic Packet Routers. The photonic packet switching in future all-optical IP centric networks can provide the much needed bandwidth granularity and optimal data transport architectures. Through the adaptation of multi-protocol label switching (MPLS) compatible photonic label switching concepts, photonic packet routers can be easily realised. As part of this project we will develop subsystem technologies for header processing with integrated ability to perform optical signal monitoring will be made. Based on these studies, optimal novel intelligent photonic router architectures incorporating these technologies will be developed and demonstrated. Performance optimisation will be carried out through computer modelling.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347247
Funder
Australian Research Council
Funding Amount
$400,000.00
Summary
Optical and Microwave Free-Space Communications Development and Test Facility. Our aim is to upgrade the capability of the University of Canberra, Monash University, the RMIT University and The University of New South Wales at ADFA to collaborate in the development and testing of next generation ultra-broadband telecommunications and data-communications devices and systems. We will augment existing instrumentation at each of the institutions to enable the collaborative development, testing and ....Optical and Microwave Free-Space Communications Development and Test Facility. Our aim is to upgrade the capability of the University of Canberra, Monash University, the RMIT University and The University of New South Wales at ADFA to collaborate in the development and testing of next generation ultra-broadband telecommunications and data-communications devices and systems. We will augment existing instrumentation at each of the institutions to enable the collaborative development, testing and system integration of high capacity free-space optical and microwave components. Experimental systems will be tested in the free-space optical communications range and satellite earth station complex situated on the University of Canberra campus.Read moreRead less
Next-Generation Optical Orthogonal frequency-division multiplexing (OFDM) for long-haul telecommunications: building on recent research and commercialisation success. The provision of Broadband Internet services to the home also requires extremely-fast 'backbone' connections between cities to carry the additional traffic demands.
In a previous project funded by the ARC, Monash researchers developed Optical-Orthogonal Frequency Division Multiplexing (OFDM) technology to increase the information- ....Next-Generation Optical Orthogonal frequency-division multiplexing (OFDM) for long-haul telecommunications: building on recent research and commercialisation success. The provision of Broadband Internet services to the home also requires extremely-fast 'backbone' connections between cities to carry the additional traffic demands.
In a previous project funded by the ARC, Monash researchers developed Optical-Orthogonal Frequency Division Multiplexing (OFDM) technology to increase the information-carrying capacity of optical fibers simply by plugging in new circuit boards at exchanges. This is now being commercialised by a new Australian company, to considerable international acclaim. This project aims to provide the next generation of this technology, which will support even faster internet and will ensure the long-term future of Australian telecommunications manufacturing.
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Embedded Dispersion Measurement for Fibre Optic Transport Systems. This project addresses an important problem in long-haul optical transport systems and a solution would simplify the deployment, faultfinding and operation of these systems. A positive outcome may lead to an opportunity to license the technology to existing equipment manufacturers. Furthermore, the proposed solution involves optical and electronic technology that is within the capability of Australian industry. There will also ....Embedded Dispersion Measurement for Fibre Optic Transport Systems. This project addresses an important problem in long-haul optical transport systems and a solution would simplify the deployment, faultfinding and operation of these systems. A positive outcome may lead to an opportunity to license the technology to existing equipment manufacturers. Furthermore, the proposed solution involves optical and electronic technology that is within the capability of Australian industry. There will also be the more certain but indirect benefit the research in this project will provide additional stimulus to active and established research community in Australia working on optical devices, subsystems and systems.Read moreRead less
Next-Generation Optical Broadband Access for Rural and Regional Areas. Broadband services in less densely populated areas are a high priority for the Australian government as shown by the $1.1 billion 'Broadband Connect' program. Current commercial broadband access in less densely populated areas is both limited and expensive. Both CUBIN and NEC are committed to developing solutions that enable truly broadband services. NEC Australia's large research and development capability is unique and it, ....Next-Generation Optical Broadband Access for Rural and Regional Areas. Broadband services in less densely populated areas are a high priority for the Australian government as shown by the $1.1 billion 'Broadband Connect' program. Current commercial broadband access in less densely populated areas is both limited and expensive. Both CUBIN and NEC are committed to developing solutions that enable truly broadband services. NEC Australia's large research and development capability is unique and it, together with CUBIN, will convert this research into national benefits including:
-Creating new knowledge and innovation
-Attracting foreign investment and promoting exports
-Training high quality post-doctoral researchers and postgraduate students
-Supporting job creation and retaining talented people in AustraliaRead moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668490
Funder
Australian Research Council
Funding Amount
$207,000.00
Summary
Ultra-high speed optical transmission test-bed for testing next generation photonic devices. This test facility will enable Australian researchers to validate optical technologies that are crucial for the development and deployment of ultrahigh speed optical networks in Australia. These next generation networks will make broadband internet connectivity more widespread and affordable for individuals and business. They provide the backbone for long haul, ultrahigh speed data transmission that link ....Ultra-high speed optical transmission test-bed for testing next generation photonic devices. This test facility will enable Australian researchers to validate optical technologies that are crucial for the development and deployment of ultrahigh speed optical networks in Australia. These next generation networks will make broadband internet connectivity more widespread and affordable for individuals and business. They provide the backbone for long haul, ultrahigh speed data transmission that link regional and urban communities within Australia and with the rest of the world, and enable a range of video on demand services including e-meetings, virtual classrooms and remote medical consultations. Demand for these services will drive new business opportunities for the Australian ICT sector.Read moreRead less
Unified digital networking for wireless and optical access. The provision of broadband services is a high priority for the Australian government as evidenced by the various initiatives around Australia. The merging of backbone infrastructures for access environment will overcome unnecessary cost of maintaining and upgrading two separate networks for wired and wireless applications. The merged infrastructure will potentially provide inexpensive and cost-effective solutions for truly broadband ser ....Unified digital networking for wireless and optical access. The provision of broadband services is a high priority for the Australian government as evidenced by the various initiatives around Australia. The merging of backbone infrastructures for access environment will overcome unnecessary cost of maintaining and upgrading two separate networks for wired and wireless applications. The merged infrastructure will potentially provide inexpensive and cost-effective solutions for truly broadband services with a choice of wired or wireless connectivity to customers and will remove the rural-urban broadband divide that has been challenging Australia. The outcomes of this project can lead to new business ventures and will further strengthen the telecommunication industry.Read moreRead less
Delivering Next-Generation Broadband Internet Access to Australia: Integration of Broadband Optical and Wireless Networks. Provision of broadband services is a high priority for the Australian government as evidenced by a range of initiatives costing more than $4 billion. Especially, the integration of optical and wireless broadband access will potentially provide inexpensive and efficient solutions to customers. Building on the strength of existing photonics and wireless industries in Australia ....Delivering Next-Generation Broadband Internet Access to Australia: Integration of Broadband Optical and Wireless Networks. Provision of broadband services is a high priority for the Australian government as evidenced by a range of initiatives costing more than $4 billion. Especially, the integration of optical and wireless broadband access will potentially provide inexpensive and efficient solutions to customers. Building on the strength of existing photonics and wireless industries in Australia, direct and indirect outcomes of this project can lead to new business opportunities and will further strengthen the growing local telecommunication industries. It is also anticipated that national and international collaboration will generate further research activities and significantly enhance the existing reputation of Australian research capabilities.Read moreRead less
ARC Communications Research Network. Building on a strong platform of existing research excellence, the Aim of the Network is to facilitate nation-wide collaborative research, promoting four intersecting research Themes: Mobile and Wireless Communications, Rural Communications, Broadband and Optical Networks, and Fundamentals of Emerging Media. Each Theme is formulated to drive multidisciplinary, innovative research as well as inspire new collaborative initiatives. Four Programs encapsulate the ....ARC Communications Research Network. Building on a strong platform of existing research excellence, the Aim of the Network is to facilitate nation-wide collaborative research, promoting four intersecting research Themes: Mobile and Wireless Communications, Rural Communications, Broadband and Optical Networks, and Fundamentals of Emerging Media. Each Theme is formulated to drive multidisciplinary, innovative research as well as inspire new collaborative initiatives. Four Programs encapsulate the core activities of the Network: Researcher Mobility, Workshops and Conferences, Postgraduate Education, and Knowledge Management Systems. The Network is expected to add significant value to pre-existing investments and raise the profile of Australian telecommunications research.Read moreRead less
Innovation in photonic device imaging: The keystone for future technologies. Advances in the use of photonic technology in telecommunications and a range of industrial applications depend critically on a precise knowledge of the physical structure of the optical fibre or device. This project involves the development of a suite of precision imaging techniques for determining the structure of optical fibres and in-fibre devices such as gratings and its application to a range of important problems ....Innovation in photonic device imaging: The keystone for future technologies. Advances in the use of photonic technology in telecommunications and a range of industrial applications depend critically on a precise knowledge of the physical structure of the optical fibre or device. This project involves the development of a suite of precision imaging techniques for determining the structure of optical fibres and in-fibre devices such as gratings and its application to a range of important problems in optical fibre technology. This knowledge is central to the ability to optimise and improve fibre and device fabrication methods, laying the foundations for higher speed telecommunications and the production of novel photonic devices.Read moreRead less