Prediction of solar activity and space weather by automated analyses of solar radio and magnetic field observations and simulations. This project will build world-recognised capabilities to forecast space weather events at Earth in time to take protective measures. It involves around the clock automated identification and analysis of specific solar radio bursts, forecasting solar activity that results in transients moving Earth-ward, and simulations to predict when these will reach Earth.
Space weather prediction via automated data analysis systems. The project will build world-recognised capabilities in forecasting space weather events at Earth, in time to take protective measures, identifying and analysing solar drivers of space weather, and modelling interplanetary space. Australia's scientific standing, expertise, and infrastructure will be strengthened in space science, complex systems, and multiple fields of physics. Better predictions will increase the utility of Ionosphe ....Space weather prediction via automated data analysis systems. The project will build world-recognised capabilities in forecasting space weather events at Earth, in time to take protective measures, identifying and analysing solar drivers of space weather, and modelling interplanetary space. Australia's scientific standing, expertise, and infrastructure will be strengthened in space science, complex systems, and multiple fields of physics. Better predictions will increase the utility of Ionospheric Prediction Service services to customers in government, industry, and society, leading to better communications, more assured access to space services, and reduced risks of damage to critical infrastructure. The project will enhance Australia's human capital and its role in global space efforts.Read moreRead less
Plasma layers, waves and fountains: Probing the ionosphere with over-the-horizon radars. The ionised layers of the Earth’s upper atmosphere – the ionosphere - bend radio waves emitted by HF radio communication and radar surveillance systems allowing detection of targets beyond the horizon. This research will provide direct scientific support to this infrastructure including the $1.8B Australian coastal surveillance radars used to locate and track ships and planes in our region and radio communic ....Plasma layers, waves and fountains: Probing the ionosphere with over-the-horizon radars. The ionised layers of the Earth’s upper atmosphere – the ionosphere - bend radio waves emitted by HF radio communication and radar surveillance systems allowing detection of targets beyond the horizon. This research will provide direct scientific support to this infrastructure including the $1.8B Australian coastal surveillance radars used to locate and track ships and planes in our region and radio communication links used by military personnel and civilians living or travelling in Australia’s remote territories. This project will also provide training in areas highly relevant to our partners in government and defense, potentially improve efficiency of scientific and military radars, and thus contribute to improving national security.Read moreRead less
Mapping the dark matter with early type galaxies. Unidentified dark matter outweighs luminous matter (stars, gas, and galaxies) by several times and is detected by its gravitational effects in the Universe. The Six Degree Field Galaxy Survey is now complete and this project will prepare a larger survey, which will put the team clearly in the lead in understanding the distribution of dark matter.
Geomagnetic induced currents in the Australian electricity supply network. This project will develop measures to protect the Australian electricity supply network from adverse effects of enhanced solar activity. This is essential for risk assessment and long term asset management of the Australian electricity network.
Monitoring and Predicting Near Real Time Ionospheric Activities with Multi-satellite Data. The ionosphere affects the transmission of electromagnetic waves, which can result in disturbance or intermission of radio signals being used for communication, navigation and other microwave systems. This project aims to monitor and predict near real-time ionospheric activities with multi-satellite data. The expected outcomes include: 1) an innovative algorithm to calculate the Total Electron Content from ....Monitoring and Predicting Near Real Time Ionospheric Activities with Multi-satellite Data. The ionosphere affects the transmission of electromagnetic waves, which can result in disturbance or intermission of radio signals being used for communication, navigation and other microwave systems. This project aims to monitor and predict near real-time ionospheric activities with multi-satellite data. The expected outcomes include: 1) an innovative algorithm to calculate the Total Electron Content from multi-satellite data; 2) an automated software package for mapping 3-dimensional ionospheric profile; and 3) an improved understanding of the detailed processes and causes of ionospheric events, that can enhance the space weather services for Australia and the world.Read moreRead less
Rapid Recovery from Radiation-induced Errors in Reconfigurable Hardware. This project aims to develop new methods for implementing satellite-based digital systems using reconfigurable hardware devices. The results aim to extend knowledge on the design of fault-tolerant systems and enable the use of off-the-shelf digital hardware in the implementation of satellite systems. The project aims to develop essential tools to assist in implementing fault-tolerant reconfigurable systems. These tools will ....Rapid Recovery from Radiation-induced Errors in Reconfigurable Hardware. This project aims to develop new methods for implementing satellite-based digital systems using reconfigurable hardware devices. The results aim to extend knowledge on the design of fault-tolerant systems and enable the use of off-the-shelf digital hardware in the implementation of satellite systems. The project aims to develop essential tools to assist in implementing fault-tolerant reconfigurable systems. These tools will be founded on the discovery of techniques needed for modifying a design into a form amenable to error recovery and for implementing the design in hardware. During the course of the project, these techniques will be demonstrated and tested in-orbit on the international QB50 CubeSat program.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.
Speaking Hmong in diaspora: language contact, resilience, and change. The project aims to investigate the how the Hmong language survives in the diaspora, with special focus on how the language transforms itself depending on the environment it finds itself in. We focus on the structure and maintenance of Hmong within the immigrant community in North Queensland across several generations of speakers, within the context of multilingual repertoires involving Australian English and Lao. The outcomes ....Speaking Hmong in diaspora: language contact, resilience, and change. The project aims to investigate the how the Hmong language survives in the diaspora, with special focus on how the language transforms itself depending on the environment it finds itself in. We focus on the structure and maintenance of Hmong within the immigrant community in North Queensland across several generations of speakers, within the context of multilingual repertoires involving Australian English and Lao. The outcomes will reveal the processes and results of language change such as the emergence of a new blend of Green and White Hmong. The project will provide significant benefits for the maintenance of diasporic Hmong within a larger context of multilingual immigrant communities.Read moreRead less
Howitt & Fison’s anthropology. Howitt & Fison’s anthropology. This project will systematically analyse nineteenth century anthropologists Lorimer Fison and A.W. Howitt’s accounts of Indigenous kinship, social organisation, and local languages, and historical encounters between settlers and Indigenous people. This project will assemble Fison and Howitt’s meticulous records into best-practice digital formats, with widely accessible interactive data presentation, and bring these extraordinary recor ....Howitt & Fison’s anthropology. Howitt & Fison’s anthropology. This project will systematically analyse nineteenth century anthropologists Lorimer Fison and A.W. Howitt’s accounts of Indigenous kinship, social organisation, and local languages, and historical encounters between settlers and Indigenous people. This project will assemble Fison and Howitt’s meticulous records into best-practice digital formats, with widely accessible interactive data presentation, and bring these extraordinary records to the broadest possible community. This research, which integrates anthropology, history and linguistics, is expected to open up new dimensions in Australian history, anthropological theory, and Australian linguistics.Read moreRead less