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Travel time budget analysis from multi-day and multi-year data. This research will investigate whether people have stable budgets for daily travel time and travel cost expenditure. Stable budgets have enormous implications for how various transport policies and investments are likely to affect the way people choose to travel and will likely change various policy and investment decisions related to transport.
Dynamic Crushing of Cellular Solids: Deformation Modes and Energy Absorption. Energy absorption behaviour of structures and materials is essential in minimising damage and fatalities caused by accidental collisions. Cellular solids are excellent in this respect. This project aims to systematically investigate the dynamic crushing of two such materials: honeycombs and metal foams. Experimental techniques applicable to these materials will be developed and comprehensive tests will be conducted. St ....Dynamic Crushing of Cellular Solids: Deformation Modes and Energy Absorption. Energy absorption behaviour of structures and materials is essential in minimising damage and fatalities caused by accidental collisions. Cellular solids are excellent in this respect. This project aims to systematically investigate the dynamic crushing of two such materials: honeycombs and metal foams. Experimental techniques applicable to these materials will be developed and comprehensive tests will be conducted. Studies will be made into their dynamic deformation modes and the associated energy absorption behaviour. The findings will extend our conceptual understanding of a class of similar problems and will help to design structures with cellular solids for much improved crashworthiness performance.Read moreRead less
The Effects of Nano and Ultrafine Particles from Traffic Emissions on Children's Health. The socio-economic benefits to Australia will include (i) quantitative knowledge of the exposure to nano and ultrafine particles, pollutants in the centre of current scientific, medical and policy debates and (ii) a breakthrough in the scientific understanding of the specific particle properties, which have impacts on health effects. The ultimate economic benefit will be improved urban design to lower, in pa ....The Effects of Nano and Ultrafine Particles from Traffic Emissions on Children's Health. The socio-economic benefits to Australia will include (i) quantitative knowledge of the exposure to nano and ultrafine particles, pollutants in the centre of current scientific, medical and policy debates and (ii) a breakthrough in the scientific understanding of the specific particle properties, which have impacts on health effects. The ultimate economic benefit will be improved urban design to lower, in particular, children's exposure to ultrafine particles, thus reducing life long impacts, health care cost and productivity losses. The research will also place Australia at the forefront of international progress towards better methods for achieving environmental and public health sustainability.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100051
Funder
Australian Research Council
Funding Amount
$200,000.00
Summary
Fabrication and characterisation facilities for lithium rechargeable batteries and supercapacitors. The facility, unlike any currently existing in Australia, will help researchers studying electrodes and cells at a high level. It will provide a new path to high-level research performance and will significantly enhance Australia’s research capability to bring new materials/technologies under development closer to application.
Optimising the design and implementation of public transport priority initiatives. This project strengthens national approaches to a pervasive Australian problem, growing traffic congestion deteriorating liveability, environmental health & economic performance of the cities where most Australians live. Public transport can address these issues but most is provided by buses which are caught up in traffic congestion. This project improves approaches for traffic priority design to improve the eff ....Optimising the design and implementation of public transport priority initiatives. This project strengthens national approaches to a pervasive Australian problem, growing traffic congestion deteriorating liveability, environmental health & economic performance of the cities where most Australians live. Public transport can address these issues but most is provided by buses which are caught up in traffic congestion. This project improves approaches for traffic priority design to improve the effectiveness and efficiency of on-road public transport. It optimises the design of individual and groups of priority treatments and will generate diagnostic tools to better target priority treatments. Findings will better focus Australia's approach to increasingly challenging transport futures.Read moreRead less
Monitoring and Maintaining the Structural Health of Bridges Using Vibration Characteristics. Bridges form an important part of our physical infrastructure system and in Queensland alone there are nearly 3000 bridges with an annual maintenance cost in excess of 20 million dollars and a replacement value in excess of 2 billion dollars. It is necessary to ensure that these bridges function safely and efficiently at all times. Bridge failure will cause disruption to normal lives and expensive repa ....Monitoring and Maintaining the Structural Health of Bridges Using Vibration Characteristics. Bridges form an important part of our physical infrastructure system and in Queensland alone there are nearly 3000 bridges with an annual maintenance cost in excess of 20 million dollars and a replacement value in excess of 2 billion dollars. It is necessary to ensure that these bridges function safely and efficiently at all times. Bridge failure will cause disruption to normal lives and expensive repairs. Towards this end, this project will develop an innovative structural health monitoring system to monitor and maintain the structural health of our bridges. The project outcomes will have immediate applications in Australia and overseas with economic and social benefits to the community.Read moreRead less
In-road microwave system for traffic monitoring and vehicle identification. In-road microwave system for traffic monitoring and vehicle identification. This project aims to develop a cost-effective, in-road microwave radar system for traffic monitoring and vehicle identification. The ever increasing number of vehicles on our roads makes conventional approaches to traffic management less effective and prohibitively expensive. The new system will integrate chip-enabled license plate technology wit ....In-road microwave system for traffic monitoring and vehicle identification. In-road microwave system for traffic monitoring and vehicle identification. This project aims to develop a cost-effective, in-road microwave radar system for traffic monitoring and vehicle identification. The ever increasing number of vehicles on our roads makes conventional approaches to traffic management less effective and prohibitively expensive. The new system will integrate chip-enabled license plate technology with novel microwave radar techniques to produce real-time data that supports immediate intervention for improved road safety, vehicle identification and driver validation. Multiple sensors will also provide uniquely rich data to improve traffic management decisions, road infrastructure planning and operation. This research could significantly reduce the effect of traffic incidents and congestions across Australia.Read moreRead less
Response of Metallic Foam Core Sandwich Panels under Impact and Blast Loadings. Human or natural disasters such as vehicle crashes, terrorist attacks or tsunami take place with catastrophic consequences, including significant loss of life and considerable financial losses. For example, in Australia in 2002 over 1,700 people died as a result of vehicle crashes. Research on new materials composites and novel composite structures for use in vehicles, buildings and other man-made structures will be ....Response of Metallic Foam Core Sandwich Panels under Impact and Blast Loadings. Human or natural disasters such as vehicle crashes, terrorist attacks or tsunami take place with catastrophic consequences, including significant loss of life and considerable financial losses. For example, in Australia in 2002 over 1,700 people died as a result of vehicle crashes. Research on new materials composites and novel composite structures for use in vehicles, buildings and other man-made structures will be undertaken to evaluate their performance under extreme or disastrous conditions. This project will investigate the performance of sandwich panels with a cellular core structure under high impact or blast loading conditions. The findings will be directly applicable to structural design of military and civil vehicles and components for the aerospace industry in order to mitigate the level of impact or blast loading under extreme conditions.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100203
Funder
Australian Research Council
Funding Amount
$326,000.00
Summary
Flow measurement for large-scale industrial aerodynamics. This project aims to research the unsteady aerodynamic wakes of cars, trucks, athletes, turbines and micro-air vehicles. Researchers will use the flow measurement system for large-scale industrial aerodynamics to resolve high speed and large scale industrial flows. The system’s primary objective will be the characterisation of complex, three-dimensional turbulent flows. It is anticipated that the research will lead to reduced aerodynamic ....Flow measurement for large-scale industrial aerodynamics. This project aims to research the unsteady aerodynamic wakes of cars, trucks, athletes, turbines and micro-air vehicles. Researchers will use the flow measurement system for large-scale industrial aerodynamics to resolve high speed and large scale industrial flows. The system’s primary objective will be the characterisation of complex, three-dimensional turbulent flows. It is anticipated that the research will lead to reduced aerodynamic drag in transport and improve wind power generation, ultimately reducing emissions and improving efficiency and national competitiveness in sport. The advanced system will strengthen Australia’s position as an advanced engineering design hub.Read moreRead less
ACTIVE CONTROL OF SURFACE OCEAN SHIPS. This research is to design nonlinear robust adaptive control systems using active actuators (flaps, fins and rudders) for course keeping and path tracking of surface ocean ships, which are inherently nonlinear and with uncertainties. The outcome of the research will lead to the development of non-linear control strategies, which result in simple-to-implement and effective controllers. These controllers are robust to the environmental disturbances and uncert ....ACTIVE CONTROL OF SURFACE OCEAN SHIPS. This research is to design nonlinear robust adaptive control systems using active actuators (flaps, fins and rudders) for course keeping and path tracking of surface ocean ships, which are inherently nonlinear and with uncertainties. The outcome of the research will lead to the development of non-linear control strategies, which result in simple-to-implement and effective controllers. These controllers are robust to the environmental disturbances and uncertainties, adapt to unknown parameters of the ship and actuators. Only a few control gains are required to be tuned. The success of this project will significantly increase the international competiveness of Australian shipbuilding industry.Read moreRead less