Integration of GPS/Pseudolites/INS to Geo-Reference Airborne Surveying and Mapping Sensors. This project aims to develop and test an innovative geo-referencing system for airborne surveying and mapping sensors. The proposed new system will be based on the deep integration of measurements from Global Positioning System (GPS), Inertial Navigation Systems (INS), and Pseudo-satellites (Pseudolites). This new system design can significantly improve the accuracy and reliability of the existing syste ....Integration of GPS/Pseudolites/INS to Geo-Reference Airborne Surveying and Mapping Sensors. This project aims to develop and test an innovative geo-referencing system for airborne surveying and mapping sensors. The proposed new system will be based on the deep integration of measurements from Global Positioning System (GPS), Inertial Navigation Systems (INS), and Pseudo-satellites (Pseudolites). This new system design can significantly improve the accuracy and reliability of the existing systems. This research will include theoretical analysis, algorithm development, system implementation, and performance evaluation, towards an operational geo-referencing system addressing ever-increasing demand for rapid acquisition of high quality spatial data from airborne sensors.Read moreRead less
Efficient Strategies for Coordinating Autonomous Vehicles for Maximising Australia's Waterfront Productivity. This project will lift the productivity of container terminals by enabling the effective deployment of autonomous vehicles in large numbers. The project outcomes of practically deployable and scalable algorithms, realised as live software, will significantly enhance Patrick Stevedores Holdings' world leading technology and the potential of such automation systems to revolutionise materia ....Efficient Strategies for Coordinating Autonomous Vehicles for Maximising Australia's Waterfront Productivity. This project will lift the productivity of container terminals by enabling the effective deployment of autonomous vehicles in large numbers. The project outcomes of practically deployable and scalable algorithms, realised as live software, will significantly enhance Patrick Stevedores Holdings' world leading technology and the potential of such automation systems to revolutionise material handling around the globe. Beyond the benefits of technology commercialisation, the project will also benefit Australia economically through extending its leading role in developing autonomous systems for material handling, enhancing the frontier technologies for building Australian industries, and alleviating looming capacity constraints.Read moreRead less
A Robotic System for Steel Bridge Maintenance. This research will bring enormous benefits to Australian community by significantly reducing the environmental impact of civil infrastructure maintenance operations, and improving the working conditions of maintenance workers by minimising their exposure to dust containing hazardous materials. Bridges are a key link that supports rural communities. Besides the 426 steel road bridges in NSW, many hundreds steel road/rail bridges and other steel infra ....A Robotic System for Steel Bridge Maintenance. This research will bring enormous benefits to Australian community by significantly reducing the environmental impact of civil infrastructure maintenance operations, and improving the working conditions of maintenance workers by minimising their exposure to dust containing hazardous materials. Bridges are a key link that supports rural communities. Besides the 426 steel road bridges in NSW, many hundreds steel road/rail bridges and other steel infrastructure in Australia need regular paint stripping and repainting. Australia will gain significant economic and health benefits from commercialising the advanced technologies developed by this project, and become a world leader in developing autonomous systems for infrastructure maintenance.Read moreRead less
Precision three-dimensional localization system for underground mining vehicles, offering improved productivity and personnel safety. The advanced machine guidance and monitoring technology developed by this project will significantly enhance the partner organisation's capacity as a leading supplier of mining machine control systems. The deployment of such enhanced machine control systems will offer an immediate national benefit to the Australian Mining Industry by dramatically improving produc ....Precision three-dimensional localization system for underground mining vehicles, offering improved productivity and personnel safety. The advanced machine guidance and monitoring technology developed by this project will significantly enhance the partner organisation's capacity as a leading supplier of mining machine control systems. The deployment of such enhanced machine control systems will offer an immediate national benefit to the Australian Mining Industry by dramatically improving productivity and occupational safety. The national interest will also be served by this project's significant contribution to Australia's leadership position as an innovator in frontier technologies for mining and robotics. Furthermore, the research outcomes will help to solve similar positioning problems in hazardous, GPS-denied environments such as urban search and rescue.Read moreRead less
Environment modelling of Great Barrier Reef habitats using Autonomous Transect Surveying. This project has as its goal the development of algorithms and methods capable of modeling unstructured, reef environments using data collected by an autonomous robotic system capable of surveying the Great Barrier Reef. The Australian Centre for Field Robotics (ACFR) currently has a small research Umanned Underwater Vehicle capable of undertaking such survey work. Under the proposed project, this vehicle ....Environment modelling of Great Barrier Reef habitats using Autonomous Transect Surveying. This project has as its goal the development of algorithms and methods capable of modeling unstructured, reef environments using data collected by an autonomous robotic system capable of surveying the Great Barrier Reef. The Australian Centre for Field Robotics (ACFR) currently has a small research Umanned Underwater Vehicle capable of undertaking such survey work. Under the proposed project, this vehicle will be equipped with appropriate sensors (such as vision systems, sonar, depth and temperature sensors). The proposed grant will support an APA (I) whose aim will be the construction of comprehensive models of the state of the reef over which the vehicle will operate.Read moreRead less
Haptic-Rendered Bell Synthesis for a Practice Carillon Clavier. This project will explore new methods of audio synthesis that respond to haptic sensing. It seeks practical ways to control the synthesis of bell sounds using the mechanical playing action of a carillon keyboard as the human interface in a virtual instrument. Sensing technology developed will also benefit other areas of new performance media where multiple forms of sensory control are required to navigate interactive virtual environ ....Haptic-Rendered Bell Synthesis for a Practice Carillon Clavier. This project will explore new methods of audio synthesis that respond to haptic sensing. It seeks practical ways to control the synthesis of bell sounds using the mechanical playing action of a carillon keyboard as the human interface in a virtual instrument. Sensing technology developed will also benefit other areas of new performance media where multiple forms of sensory control are required to navigate interactive virtual environments. The project also creates new postgraduate research training opportunities in an area that crosses disciplinary boundaries between frontier technology and the creative arts.Read moreRead less
Use of CT Scanned Data in automation of Carcass Processing. Meat production is important to the Australian economy. The industry is threatened by inability to obtain sufficient labor for meat processing. Automation represents a potential solution, but brings challenges. Piecemeal automation has produced haphazard interspersing of automated and manual workstations. In meat processing automation, the greatest benefits are obtained when the process is integrated and data is passed down the process ....Use of CT Scanned Data in automation of Carcass Processing. Meat production is important to the Australian economy. The industry is threatened by inability to obtain sufficient labor for meat processing. Automation represents a potential solution, but brings challenges. Piecemeal automation has produced haphazard interspersing of automated and manual workstations. In meat processing automation, the greatest benefits are obtained when the process is integrated and data is passed down the process line. The outcomes of this project, a practically deployable robotic system, enabling methodologies and a common database, represent a big step towards integrated meat processing and bring enormous economic and health benefits to Australian community.Read moreRead less
A Vision Controlled Autonomous Multi-Robot Welding System. This developed system will increase the application of robotic welding in more Australian industries thereby increaseing the productivity and competitiveness of the nation. The system will provide a safer work environment for workers by reducing and potentially eliminating direct exposure of workers to the welding process. This fully automated welding system will give the Lincoln a significant advantage in commercialise this technology b ....A Vision Controlled Autonomous Multi-Robot Welding System. This developed system will increase the application of robotic welding in more Australian industries thereby increaseing the productivity and competitiveness of the nation. The system will provide a safer work environment for workers by reducing and potentially eliminating direct exposure of workers to the welding process. This fully automated welding system will give the Lincoln a significant advantage in commercialise this technology both in Australia and overseas. Therefore, this will reap considerable economic benefit for the company, and the nation. This project will also provide a realistic industrial environment for PhD student training.Read moreRead less
Fish-Bird: Autonomous Interactions in a Contemporary Arts Setting. This research aims to investigate and expand the dialogical possibilities that exist between multiple autokinetic objects within a new media arts environment. Communication between the objects, and with their audience, will be explored through the modalities of gesture, motion and written text. A new aesthetic framework for interactive artwork will be created through research into autokinesis and the behavioural patterns that evo ....Fish-Bird: Autonomous Interactions in a Contemporary Arts Setting. This research aims to investigate and expand the dialogical possibilities that exist between multiple autokinetic objects within a new media arts environment. Communication between the objects, and with their audience, will be explored through the modalities of gesture, motion and written text. A new aesthetic framework for interactive artwork will be created through research into autokinesis and the behavioural patterns that evolve between people and autokinetic machines. Outcomes will include a major artwork in three stages, underpinned by a robotics software tool set that facilitates composition and experimentation with autokinetic artwork.Read moreRead less
An Augmented-GPS Software Receiver for Indoor/Outdoor Positioning. This research student project will focus on the technical design of a personal positioning device, based on the measurement of a combination of GPS satellite and ground-transmitted signals. The design will incorporate Australian innovations in high-sensitivity GPS receivers, and 'pseudo-satellite' technologies. The integration of the GPS and 'pseudo-satellite' technologies will be carried out within a 'software receiver', which ....An Augmented-GPS Software Receiver for Indoor/Outdoor Positioning. This research student project will focus on the technical design of a personal positioning device, based on the measurement of a combination of GPS satellite and ground-transmitted signals. The design will incorporate Australian innovations in high-sensitivity GPS receivers, and 'pseudo-satellite' technologies. The integration of the GPS and 'pseudo-satellite' technologies will be carried out within a 'software receiver', which offers the opportunity of flexibility in the design of signal processing and navigation algorithms. The receiver design is intended to address the critical challenges for a low-cost, ubiquitous, high accuracy positioning device for a variety of indoor and outdoor consumer applications.Read moreRead less