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
Special Research Initiatives - Grant ID: SR0354488
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Intelligent vehicles and road infrastructure (IVRI). The aims of the network are to integrate the activities of researchers and practitioners in the areas of vehicles and road infrastructure and through cross-disciplinary collaboration apply intelligent control systems to deliver mobility, which is safer for all users, reduces driver stress and environmental impact with increased local manufactured content and improved cost effectiveness. It is of great significance to provide a cohesive solutio ....Intelligent vehicles and road infrastructure (IVRI). The aims of the network are to integrate the activities of researchers and practitioners in the areas of vehicles and road infrastructure and through cross-disciplinary collaboration apply intelligent control systems to deliver mobility, which is safer for all users, reduces driver stress and environmental impact with increased local manufactured content and improved cost effectiveness. It is of great significance to provide a cohesive solution to the transport problem considering all modes, environmental impacts, and economical and social considerations. This project should lead to a report identifying Australia's capability in this sector and a roadmap for a future research network integrating university and industry based research.Read moreRead less
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.
Discovery Early Career Researcher Award - Grant ID: DE190100211
Funder
Australian Research Council
Funding Amount
$372,000.00
Summary
Parenting and private car use in Australian cities. This project aims to provide a theoretical, methodological and policy framework that can be used to resolve the practice in Australian cities of private car dependency. Taking the way we travel as parents as an example of a particularly complex expression of private car use, this project will combine theories of practice, policy and process to understand transport behaviour. The project seeks to establish an evidence base to inform potential, e ....Parenting and private car use in Australian cities. This project aims to provide a theoretical, methodological and policy framework that can be used to resolve the practice in Australian cities of private car dependency. Taking the way we travel as parents as an example of a particularly complex expression of private car use, this project will combine theories of practice, policy and process to understand transport behaviour. The project seeks to establish an evidence base to inform potential, effective policy change to lessen the social, environmental, and economic impacts of private car use. This project expects to provide interdisciplinary and multifaceted understandings of car dependency, and ways to transition towards more sustainable and healthier modes of travel.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
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
Interfacial Nanofluids. The fundamental understanding of Colloid and Surface Chemistry will be significantly enhanced through the understanding of the formation and properties of interfacial nanofluids. In addition, this project will provide the knowledge of the influence of nanofluids on the lubrication and the surface interaction. The future results will likely have great impact on the development of miniature devices, lab-on-a-chip and microfludics or nanofluidics systems, water treatment, m ....Interfacial Nanofluids. The fundamental understanding of Colloid and Surface Chemistry will be significantly enhanced through the understanding of the formation and properties of interfacial nanofluids. In addition, this project will provide the knowledge of the influence of nanofluids on the lubrication and the surface interaction. The future results will likely have great impact on the development of miniature devices, lab-on-a-chip and microfludics or nanofluidics systems, water treatment, minerals processing, the food industries, pumping of fuel and water, and other processes. And the research described in this proposal will help to maintain the high international profile of Australian science in the field of Colloid and Surface Research. Read moreRead less
Millimeter Wave Frequencies for Vehicle-to-Everything Communications. High data rate communication links between vehicles and surrounding objects are needed to enhance advanced driver assistance systems, enable a wider range of infotainment options and pave the way towards fully automated driving. This project aims to develop a novel framework to use millimeter wave frequencies (the newest candidate for 5G cellular) to enable future high data rate vehicle-to-everything (V2X) communication system ....Millimeter Wave Frequencies for Vehicle-to-Everything Communications. High data rate communication links between vehicles and surrounding objects are needed to enhance advanced driver assistance systems, enable a wider range of infotainment options and pave the way towards fully automated driving. This project aims to develop a novel framework to use millimeter wave frequencies (the newest candidate for 5G cellular) to enable future high data rate vehicle-to-everything (V2X) communication systems. Based on an innovative approach, the project combines communication and sensor technologies in an integrated system that simultaneously reaps the benefits of autonomously sensing the driving environment and cooperatively exchanging information, thus providing significant savings in hardware costs and spectrum usage.Read moreRead less
Building dependability into complex, computer-based systems. Air traffic control, telecommunications, defence, power distribution and many other vital infrastructures all rely on complex computer-based systems. Whenever one of these systems fails, it can cause major disruption to society, create large financial losses and even pose risks to life.
This project will integrate and improve methods for modelling and analysing computer-based systems in terms of their requirements and architectures ....Building dependability into complex, computer-based systems. Air traffic control, telecommunications, defence, power distribution and many other vital infrastructures all rely on complex computer-based systems. Whenever one of these systems fails, it can cause major disruption to society, create large financial losses and even pose risks to life.
This project will integrate and improve methods for modelling and analysing computer-based systems in terms of their requirements and architectures, focusing on how to achieve and maintain dependability in the context of on-going change and failure to meet requirements. These methods will be based on sound mathematical foundations and proven engineering approaches applicable to industrial-scale complex systems.Read moreRead less
Behaviour Bootstrapping for Ad Hoc, Heterogeneous Robot Swarms. This project aims to develop algorithms to permit groups of robots to evolve coordinated, collective, swarm behaviours. Groups of robots will be conceptualised as developmental swarm organisms with an initially limited set of behaviours, but equipped with structures and processes to permit them to evolve new behaviours. This project expects to deliver the next generation of computational intelligence technologies to enable humans to ....Behaviour Bootstrapping for Ad Hoc, Heterogeneous Robot Swarms. This project aims to develop algorithms to permit groups of robots to evolve coordinated, collective, swarm behaviours. Groups of robots will be conceptualised as developmental swarm organisms with an initially limited set of behaviours, but equipped with structures and processes to permit them to evolve new behaviours. This project expects to deliver the next generation of computational intelligence technologies to enable humans to harness large groups of robots for new kinds of transport and inspection tasks in smart cities, smart farming and defence. The expected outcomes of the project include new software frameworks for distributed developmental learning, extending developmental robotics to evolutionary robot swarms. Read moreRead less