Three-dimensional property ownership map base for smart urban land administration. Three-dimensional property ownership map base for smart urban land administration. This project aims to support smart urban land administration by upgrading a two-dimensional (2D) property ownership map base to a three-dimensional (3D) map base, using 3D digital data from regulatory subdivision processes. The map base coherently represents all land-based parcels, and provides valuable intelligence used to make lan ....Three-dimensional property ownership map base for smart urban land administration. Three-dimensional property ownership map base for smart urban land administration. This project aims to support smart urban land administration by upgrading a two-dimensional (2D) property ownership map base to a three-dimensional (3D) map base, using 3D digital data from regulatory subdivision processes. The map base coherently represents all land-based parcels, and provides valuable intelligence used to make land and property decisions. The 2D map base omits above and underground properties and infrastructure common in urban settings, forcing stakeholders to rely on fragmented data streams. The 3D map base will provide a connected, digital source of intelligence about urban property objects. This is expected to reduce social and economic risks and enable more intelligent city planning and management.Read moreRead less
Automating and integrating spatial data and metadata processes. The ability to automatically generate metadata relating to spatial information, and make it available through the Australian SDI will have important benefits not only at an organizational level (with each organization saving time and money in generating their metadata), but at a national level because it will assist delivery of high quality spatial information and services to vast areas of Australia. This will aid in addressing nati ....Automating and integrating spatial data and metadata processes. The ability to automatically generate metadata relating to spatial information, and make it available through the Australian SDI will have important benefits not only at an organizational level (with each organization saving time and money in generating their metadata), but at a national level because it will assist delivery of high quality spatial information and services to vast areas of Australia. This will aid in addressing national issues concerned with land management, environmental sustainability, water rights, indigenous land tenure and disaster management, which can only be addressed by having the ability to find and access high quality spatial information. Read moreRead less
A Marine Cadastre for Australia - Addressing Key Scientific and Policy Issues. A marine cadastre provides a means for delineating, managing and administering legally definable offshore boundaries. Marine cadastre research was initiated in Australia under a previous ARC grant which aimed at defining issues affecting the development of an Australian marine cadastre. The current project focuses on four such issues :
(1) Resolving ambiguities in the definition of the tidal interface
(2) Issues ....A Marine Cadastre for Australia - Addressing Key Scientific and Policy Issues. A marine cadastre provides a means for delineating, managing and administering legally definable offshore boundaries. Marine cadastre research was initiated in Australia under a previous ARC grant which aimed at defining issues affecting the development of an Australian marine cadastre. The current project focuses on four such issues :
(1) Resolving ambiguities in the definition of the tidal interface
(2) Issues in the use of natural rather than geometric boundaries to define jurisdictional limits
(3) Expanding the Australian Spatial Data Infrastructure to support a marine cadastre
(4) Legal and security issues intrinsic to the development of a marine cadastre.Read moreRead less
The Integration of Built and Natural Environmental Datasets in National Spatial Data Infrastructure Initiatives. Delivering sustainable development nationally assumes knowledge about the natural and built environment. This requires access to data about these two environments which is facilitated by establishing a National Spatial Data Infrastructure (NSDI). The problem in Australia is that the states are the custodians of large to medium built and natural datasets while the Federal Government is ....The Integration of Built and Natural Environmental Datasets in National Spatial Data Infrastructure Initiatives. Delivering sustainable development nationally assumes knowledge about the natural and built environment. This requires access to data about these two environments which is facilitated by establishing a National Spatial Data Infrastructure (NSDI). The problem in Australia is that the states are the custodians of large to medium built and natural datasets while the Federal Government is the custodian of small scale natural datasets. While Australia has seen some success, the integration of these datasets is hampered by jurisdictional, institutional, administrative and legal issues. This research will investigate the differences in these forms of data and the justification and policy framework to integrate them in a NSDI.Read moreRead less
Sensor Integration for Low-Cost Robust Machine Automation. Machine automation (MA) radically improves efficiency of mining and construction operataions. When used for farming, it makes Australia more competitive with subsidised competitors in Europe and USA. In one case, a 50% reduction in tractor fleet resulted when night plowing was made possible using MA techniques. The systems developed in this project will make MA far more attractive to Australian agriculture, mining and construction indust ....Sensor Integration for Low-Cost Robust Machine Automation. Machine automation (MA) radically improves efficiency of mining and construction operataions. When used for farming, it makes Australia more competitive with subsidised competitors in Europe and USA. In one case, a 50% reduction in tractor fleet resulted when night plowing was made possible using MA techniques. The systems developed in this project will make MA far more attractive to Australian agriculture, mining and construction industries, by making it more robust and less susceptible to difficult conditions, such as under trees.Read moreRead less
Third Generation of Positioning System for Underground Mine Environments. This project aims to research a robust high accuracy positioning system for underground mining environments to improve worker safety and mine efficiency. Positioning in underground mining environments is a key requirement in ensuring the safety of mine workers. It is also a critical technological capability in resolving mine productivity bottlenecks. Australia is one of the largest mining nations and is a leader in mining- ....Third Generation of Positioning System for Underground Mine Environments. This project aims to research a robust high accuracy positioning system for underground mining environments to improve worker safety and mine efficiency. Positioning in underground mining environments is a key requirement in ensuring the safety of mine workers. It is also a critical technological capability in resolving mine productivity bottlenecks. Australia is one of the largest mining nations and is a leader in mining-related research and development and this project intends to support the growth of the valuable mining sector by addressing a significant engineering challenge.Read moreRead less
Structural Deformation Monitoring Integrating a New Wireless Positioning Technology with GPS. In today's society, current positioning technologies are unable to provide location information with the necessary accuracy, reliability, and low cost, for an expanding number of location aware applications. Locata's positioning technology has the potential to meet these requirements through a network of terrestrial based signal transmitters and GPS integration. The proposed research will provide adva ....Structural Deformation Monitoring Integrating a New Wireless Positioning Technology with GPS. In today's society, current positioning technologies are unable to provide location information with the necessary accuracy, reliability, and low cost, for an expanding number of location aware applications. Locata's positioning technology has the potential to meet these requirements through a network of terrestrial based signal transmitters and GPS integration. The proposed research will provide advanced training to graduate students and enable this technology to be realised. The application of the technology is almost limitless, from surveying and civil engineering projects, manufacturing industries and consumer Location Based Services (LBS), where the benefits would be enormous.Read moreRead less
Assisted GPS and Advanced Positioning For Emergency Services. Many volunteers have lost their lives fighting bushfires in Australia. Fires are becoming more numerous and more fierce. Some of those firemen could have been saved if better information was available: where they were, where the firefront was and how it was progressing. This project aims to save lives by solving part of this problem: locating and reporting the position of the remote firefighter by making GPS work reliably under trees. ....Assisted GPS and Advanced Positioning For Emergency Services. Many volunteers have lost their lives fighting bushfires in Australia. Fires are becoming more numerous and more fierce. Some of those firemen could have been saved if better information was available: where they were, where the firefront was and how it was progressing. This project aims to save lives by solving part of this problem: locating and reporting the position of the remote firefighter by making GPS work reliably under trees. This will also make search and rescue operations safer and more efficient. The technology can transfer readily into the location-based services market which is set to boom in the next decade. This project helps maintain momentum in Australia's world-class but small positioning industry.Read moreRead less
A Positioning System for Mobile Phones. This project aims to produce a positioning system that integrates a mobile phone-based technique developed in Australia, known as Seekerzone, with GPS. The combination of Seekerzone and GPS delivers a system capable of reporting whether children or valuables are in a safe location. As security becomes an increasing priority, this system can operate indoors or outdoors, and provides many solutions. Seekerzone has already attracted international interest, an ....A Positioning System for Mobile Phones. This project aims to produce a positioning system that integrates a mobile phone-based technique developed in Australia, known as Seekerzone, with GPS. The combination of Seekerzone and GPS delivers a system capable of reporting whether children or valuables are in a safe location. As security becomes an increasing priority, this system can operate indoors or outdoors, and provides many solutions. Seekerzone has already attracted international interest, and coupled with GPS, its applications and export opportunities will multiply. The target product will provide effective and convenient security, while its developemnt will provide important research training in Australia's drastically under-resourced spatial industry.Read moreRead less
Improved Geodetic Modelling through Very Long Baseline Interferometry. We plan to develop a geodetic VLBI capability to provide independent confirmation of results from alternative techniques such as GPS and SLR and allow us to characterise and remove the systematic errors inherent in these systems, to produce an optimum, unified terrestrial reference system based on VLBI measurements, together with GPS/SLR data, especially for the Antarctic region. The ITRF is based on the VLBI ICRF linking ou ....Improved Geodetic Modelling through Very Long Baseline Interferometry. We plan to develop a geodetic VLBI capability to provide independent confirmation of results from alternative techniques such as GPS and SLR and allow us to characterise and remove the systematic errors inherent in these systems, to produce an optimum, unified terrestrial reference system based on VLBI measurements, together with GPS/SLR data, especially for the Antarctic region. The ITRF is based on the VLBI ICRF linking our astrometric and geodynamic research programs.
We will estimate motion at sites from the combination of VLBI, GPS, gravity and tide gauge data for geodynamic effects, such as post-glacial rebound and tectonic motion, global mean sea level change and determine length-of-day (LOD) variations, focused primarily on understanding the contribution from the Southern Oceans.
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