Development of a new transport layer protocol to provide secure broadband internet connections via satellite to rural and remote areas. Satellite links form an essential part of broadband connectivity to rural and remote areas. Effective use of the internet over satellite links is therefore essential if B2B (Business-to-Business) and B2C (Business-to-Consumer) E-commerce is to develop in these areas. In many application networks, particularly virtual private networks (VPN), secure transmission ....Development of a new transport layer protocol to provide secure broadband internet connections via satellite to rural and remote areas. Satellite links form an essential part of broadband connectivity to rural and remote areas. Effective use of the internet over satellite links is therefore essential if B2B (Business-to-Business) and B2C (Business-to-Consumer) E-commerce is to develop in these areas. In many application networks, particularly virtual private networks (VPN), secure transmission is important to avoid fraud and maintain privacy.
Satellite links introduce a long delay (latency) in the transmission path and existing secure internet protocols do not handle this well. This is because in many situations, it is a requirement that the secure connection be implemented not only independently of the
satellite service provider but also in a reliable and efficient way.
This project will develop new practical solutions so that secure and reliable end-to-end connections can be provided over the satellite links.
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Linkage Infrastructure, Equipment And Facilities - Grant ID: LE110100054
Funder
Australian Research Council
Funding Amount
$1,230,000.00
Summary
Ground station facility for membership of the atomic clock ensemble in space mission. This is a unique opportunity for Australian membership of a high profile space mission involving atomic clocks on board the International Space Station and in the world's best frequency and time laboratories. The results obtained will lead to a better understanding of the unification of quantum mechanics and relativity as well as aspects of fundamental Earth metrology.
New experimental-analytical x-ray diffraction technique for unambiguous non-destructive characterization of high-performance silicon-germanium-carbon alloys for broadband communication devices. This research will develop a new x-ray diffraction technique for characterization of silicon-germanium-carbon semiconductor alloys. These are the basis for the new generation, ultra-high speed broadband telecommunication devices. The research will establish a new theoretical methodology for fundamental st ....New experimental-analytical x-ray diffraction technique for unambiguous non-destructive characterization of high-performance silicon-germanium-carbon alloys for broadband communication devices. This research will develop a new x-ray diffraction technique for characterization of silicon-germanium-carbon semiconductor alloys. These are the basis for the new generation, ultra-high speed broadband telecommunication devices. The research will establish a new theoretical methodology for fundamental studies of x-ray scattering phenomena in compound strain-compensated materials. The experiments will be carried out using the state-of-the-art laboratory and synchrotron radiation facilities in Australia, Japan and France. The project involves direct collaboration with IHP Germany, the world-leading semiconductor developer. Highly qualified postgraduate students will be extensively trained in modern synchrotron experiments, x-ray diffraction theory and semiconductor technology during the project.Read moreRead less
A southern hemisphere ground station for the Atomic Clock Ensemble in Space mission. Australia is aiming for membership in the high-profile space mission involving atomic clocks on-board the International Space Station. The mission will test aspects of special and general relativity, searching for tell-tale signs of new physics. This project will construct an atomic fountain clock and install a microwave-satellite link to meet the goal.
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
3D tomographic reconstruction of rainfall using satellite signals. This project aims to use the microwave communication links of low earth and/or medium earth orbit satellites to achieve three dimensional tomographic reconstruction of rainfall. The path loss of microwave signals due to rainfall, known as rain attenuation can be used to measure rain. Similar to using X-ray to carry out human-body CT scans. With the aid of advanced signal processing techniques, the proposed method will achieve 3D ....3D tomographic reconstruction of rainfall using satellite signals. This project aims to use the microwave communication links of low earth and/or medium earth orbit satellites to achieve three dimensional tomographic reconstruction of rainfall. The path loss of microwave signals due to rainfall, known as rain attenuation can be used to measure rain. Similar to using X-ray to carry out human-body CT scans. With the aid of advanced signal processing techniques, the proposed method will achieve 3D measurements with resolution and coverage unachievable before, paving the way for innovative water relevant applications such as hydrology and agriculture, and new findings in atmospheric research.Read moreRead less