Network Management in a World of Secrets. The aim of this proposal is to provide world leading measurement and management techniques for the Internet and other telecommunications networks. In particular, the methods will improve privacy of network participants (customers and providers) while simultaneously improving network performance. Additionally, the project will create expertise in an area of great future interest -- privacy preserving computation -- expertise that can be transferred to stu ....Network Management in a World of Secrets. The aim of this proposal is to provide world leading measurement and management techniques for the Internet and other telecommunications networks. In particular, the methods will improve privacy of network participants (customers and providers) while simultaneously improving network performance. Additionally, the project will create expertise in an area of great future interest -- privacy preserving computation -- expertise that can be transferred to students and the next generation of innovators.
Apart from these benefits, the research will provide exposure of Australian research strength in an area of world-wide public interest. Results concerning Internet reliability are of particularly high impact. Read moreRead less
Markov Field Theory applied to Sensor Networks Analysis and Design. Ad hoc and sensor networks have a wide range of applications in defence, emergency services and agriculture because they do not require telecommunications infrastructure such as base stations or access points, hence are relatively easy to deploy in harsh environments. This project aims at improving the theoretical understanding of sensor and ad hoc networks, which enable improvements in performance in such networks. Australian d ....Markov Field Theory applied to Sensor Networks Analysis and Design. Ad hoc and sensor networks have a wide range of applications in defence, emergency services and agriculture because they do not require telecommunications infrastructure such as base stations or access points, hence are relatively easy to deploy in harsh environments. This project aims at improving the theoretical understanding of sensor and ad hoc networks, which enable improvements in performance in such networks. Australian defence industry and emergency services will benefit from this research by gaining access to improved ad hoc communications networks. The agricultural sector will also benefit from the improved sensor networks in applications such as monitoring soil conditions, stock and crop levels. Read 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
Target Identification with Ultra-Wideband Polarimetric Radar. Radar reflecting objects resonate when electromagnetically and appropriately excited. These resonances can be extracted from the returned radar signal and used to identify the object. A simile is identifying a tuning fork from its sound rather than its image.
The techniques developed in this proposal are primarily to be used in security and defence applications for better screening of threat targets. The benefit is a safe and more ....Target Identification with Ultra-Wideband Polarimetric Radar. Radar reflecting objects resonate when electromagnetically and appropriately excited. These resonances can be extracted from the returned radar signal and used to identify the object. A simile is identifying a tuning fork from its sound rather than its image.
The techniques developed in this proposal are primarily to be used in security and defence applications for better screening of threat targets. The benefit is a safe and more secure environment. Read moreRead less
Radio Frequency Microelectromechanical Systems for Wireless Communications. Current and future Wireless appliances require increased functionality, frequency of operation, and component integration along with reduced manufacturing costs, size, weight, and power consumption. Micro electro mechanical systems for radio frequency with versatility to integrate both electronic (2-D) and microelectro-mechanical (3-D) devices represent the technology that can offer wide operational bandwidths, on-chip p ....Radio Frequency Microelectromechanical Systems for Wireless Communications. Current and future Wireless appliances require increased functionality, frequency of operation, and component integration along with reduced manufacturing costs, size, weight, and power consumption. Micro electro mechanical systems for radio frequency with versatility to integrate both electronic (2-D) and microelectro-mechanical (3-D) devices represent the technology that can offer wide operational bandwidths, on-chip passive components, negligible interconnections, almost ideal switches and resonators, in a planar fabrication process, compatible with existing integrated circuits and monolithic microwave integrated circuits. The outcomes of this project will be of significant benefit to the Australian Telecommunication industry.Read moreRead less
Radio Frequency Micro Electro Mechanical Systems Switch Applications for Reconfigurable Multifunctional Communication Systems. Recent advances in modern ultra wideband radar and wireless communications applications demanded high performance and reconfigurable Radio Frequency subsystems that simplify multiple complex functions using common hardware. These trends impose drastic requirements on passive and active devices. The reported performance of Radio Frequency Micro Electro Mechanical System ....Radio Frequency Micro Electro Mechanical Systems Switch Applications for Reconfigurable Multifunctional Communication Systems. Recent advances in modern ultra wideband radar and wireless communications applications demanded high performance and reconfigurable Radio Frequency subsystems that simplify multiple complex functions using common hardware. These trends impose drastic requirements on passive and active devices. The reported performance of Radio Frequency Micro Electro Mechanical Systems (RF MEMS) switches, with extremely low loss and high isolation, microsopic, have lead to their applications in reconfigurable circuits. The proposal deals with the development of RF MEMS based reconfigurable devices that will enable flexible interconnections between various ports and channels and optimize the usage of bandwidth. The outcomes of this project will be of significant benefit to the Australian Telecommunication industry.Read moreRead less
Microfibre photonics: function densification on a wavelength scale. The project will contribute to Australia's nanoscale device research and nanomanufacturing development. The project will create microfibre fabrication technologies for the creation of new optical systems of miniature proportions that will be used for cell illumination, for the creation of sensors for detection in small environments and as light tools for fundamental experiments in physics. Specialist fabrication methods will be ....Microfibre photonics: function densification on a wavelength scale. The project will contribute to Australia's nanoscale device research and nanomanufacturing development. The project will create microfibre fabrication technologies for the creation of new optical systems of miniature proportions that will be used for cell illumination, for the creation of sensors for detection in small environments and as light tools for fundamental experiments in physics. Specialist fabrication methods will be developed that will add to the nation's skill base. The outcomes of the project will enhance Australia's knowledge capacity, research capability and will contribute significantly to each of the National Research Priorities.Read moreRead less
Design of Wireless sensor and communication networks with fixed and mobile nodes. Wireless sensor and communication networks with fixed and mobile nodes are rapidly becoming essential technologies for hostile environmental monitoring, battlefield surveillance and precision agriculture. However, due to the complexities associated with interconnected design issues involving sensors, autonomous vehicles and communication protocols, even very simple networks have proven to be difficult to design. Th ....Design of Wireless sensor and communication networks with fixed and mobile nodes. Wireless sensor and communication networks with fixed and mobile nodes are rapidly becoming essential technologies for hostile environmental monitoring, battlefield surveillance and precision agriculture. However, due to the complexities associated with interconnected design issues involving sensors, autonomous vehicles and communication protocols, even very simple networks have proven to be difficult to design. This project proposes to intelligently employ higher capabilities of mobile nodes and develop methods for rapid deployment, maintenance and routing that are aware of location, energy, and security. The outcomes of this project will form the basis for design of intelligent wireless networks for defence and civilian applications.Read moreRead less
Novel coherence-free photonic microwave signal processors. With the increasing bandwidth requirements of information signals, there is an unprecedented challenge to provide high-speed and high resolution systems for signal processing. The new photonic signal processors in this project will herald in a new epoch in the ability to optimally condition wideband signals, with important applications for science, business and security services. These processors will have particular impact in transcendi ....Novel coherence-free photonic microwave signal processors. With the increasing bandwidth requirements of information signals, there is an unprecedented challenge to provide high-speed and high resolution systems for signal processing. The new photonic signal processors in this project will herald in a new epoch in the ability to optimally condition wideband signals, with important applications for science, business and security services. These processors will have particular impact in transcending exisiting electronic processor limitations and in enhancing fibre-fed distributed antenna systems, with benefits to Australia in the fields of radioastronomy and radar systems in defence.Read moreRead less
Novel coherence-free microwave photonic signal processors. With the unrelenting push for increasing bandwidth requirements, there is an unprecedented challenge to provide high-performance systems for high-bandwidth signal processing. In areas such as fibre-wireless networks, radioastronomy, and defence, it is essential to pre-process the wideband fibre-fed distributed antenna signals. The new coherence-free, high-frequency, low-noise photonic signal processors, in this project have important app ....Novel coherence-free microwave photonic signal processors. With the unrelenting push for increasing bandwidth requirements, there is an unprecedented challenge to provide high-performance systems for high-bandwidth signal processing. In areas such as fibre-wireless networks, radioastronomy, and defence, it is essential to pre-process the wideband fibre-fed distributed antenna signals. The new coherence-free, high-frequency, low-noise photonic signal processors, in this project have important applications for science, business and security services. The results have widespread uses in enhancing fibre-fed distributed antenna systems, with national benefits in the fields of radioastronomy and radar systems in defence.Read moreRead less