Development of Novel Metaconcrete to Resist Impulsive Loads. This project aims to develop innovative metaconcrete for structural protection by utilising the concept of phononic crystals and metamaterials which has been recently developed by physicists. Traditional construction materials are used in new structural forms to mitigate dynamic loading effects by exploiting the unique characteristics of the proposed metaconcrete. Theoretical, numerical and experimental methods will be used to derive t ....Development of Novel Metaconcrete to Resist Impulsive Loads. This project aims to develop innovative metaconcrete for structural protection by utilising the concept of phononic crystals and metamaterials which has been recently developed by physicists. Traditional construction materials are used in new structural forms to mitigate dynamic loading effects by exploiting the unique characteristics of the proposed metaconcrete. Theoretical, numerical and experimental methods will be used to derive the best performing metaconcrete and verify its static and dynamic load resistant capacities. The expected outcomes of the project will lead to innovative extreme-loading resistant designs and provide significant benefit to the Australian construction industry, general public and economy.Read moreRead less
New technology for designing advanced surface textures. This project aims to develop new methods for the characterisation of advanced textures to aid the manufacturing industry. There is an increasing demand for surfaces with various texture patterns manufactured by modern industry. Thus, novel texture characterisation methods are needed. New methods will allow for optimisation of surface textures for example for improved energy efficiency, bone growth in artificial implants, and others.
Novel Statistical Methods For Genetic Epidemiology
Funder
National Health and Medical Research Council
Funding Amount
$481,505.00
Summary
We are in the midst of a genomics revolution that is transforming epidemiology, medicine and drug discovery. However, the scarcity of sophisticated statistical techniques to deal with the complicated problems inherent in genetic investigations of complex diseases is currently the critical factor limiting the success of human gene discovery programs. Statistical genetic methodology is currently one of the fastest developing areas of epidemiology. In information-intensive' areas such as genetic ep ....We are in the midst of a genomics revolution that is transforming epidemiology, medicine and drug discovery. However, the scarcity of sophisticated statistical techniques to deal with the complicated problems inherent in genetic investigations of complex diseases is currently the critical factor limiting the success of human gene discovery programs. Statistical genetic methodology is currently one of the fastest developing areas of epidemiology. In information-intensive' areas such as genetic epidemiology, genomics, and proteomics, there is a high demand for data analysis and statistical skills. WA has some world class expertise in statistical science, both in academia and in industry. However, this expertise has not yet been applied in a system way to genetic data analysis. We propose to undertake advanced methodological research in statistical genetics and bioinformatics, to produce easy-to-use and accessible software tools and resources that allow methodological advances to be accessed by the Australian research community, and to apply our new methods and tools both to specific disease research and to the developing human genome epidemiology (HuGE) enterprise in WA. These new initiatives in methodological research will draw together a number of currently separate research strands and will provide new tools and resources that will allow applied Australian programs to improve the efficiency of their research into the causes of important. Methodological development in both bioinformatics and statistical genetics are recognized international areas of need.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100130
Funder
Australian Research Council
Funding Amount
$320,000.00
Summary
An earthquake shaking table to investigate soil-structure interactions. An earthquake shaking table to investigate soil-structure interactions: This project aims to develop Australia's most advanced earthquake shaking table. Earthquakes are a problem of great significance to Australia. Infrastructure in civil, transport, mining and energy sectors may be at an unacceptable risk of damage under earthquake loading as current design practices do not account for the interaction between infrastructure ....An earthquake shaking table to investigate soil-structure interactions. An earthquake shaking table to investigate soil-structure interactions: This project aims to develop Australia's most advanced earthquake shaking table. Earthquakes are a problem of great significance to Australia. Infrastructure in civil, transport, mining and energy sectors may be at an unacceptable risk of damage under earthquake loading as current design practices do not account for the interaction between infrastructure and the ground under such loading. The shaking table will simulate earthquakes and enable controlled testing of three-tonne models of foundation and soil-structure interaction systems typical of Australia's infrastructure. The discoveries made are expected to be integral to the modernisation of Australia's seismic design standards so that earthquake-induced damage and risk exposure can be minimised.Read moreRead less
Innovative Solutions for Wool Garment Comfort through Design. This project will investigate how innovation in garment design can add value to the Australian wool clip and be a driver for new industrial development and product innovation. The project is relevant to stakeholders in rural communities as it will show the potential of new distributed technologies for resource-based industries and enable the wool industry to deliver increases in national wealth while minimising environmental impacts. ....Innovative Solutions for Wool Garment Comfort through Design. This project will investigate how innovation in garment design can add value to the Australian wool clip and be a driver for new industrial development and product innovation. The project is relevant to stakeholders in rural communities as it will show the potential of new distributed technologies for resource-based industries and enable the wool industry to deliver increases in national wealth while minimising environmental impacts. As the project will provide examples of design-led innovation for a traditional Australian product, the links made between wool and garment innovation will encourage a broader consumer understanding of Australian cultural identity. Read moreRead less
Developing innovative concrete composites by upscaling material properties. This project aims to develop an upscaling process to correlate micro-nano properties of engineering materials to their comprehensive physicochemical properties based on systematic mechanical and statistical analysis approaches and nanoindentation technology. The process will enable assessing material mechanical and viscoelastic properties at a microscale level thus will generate a new knowledge in structural engineering ....Developing innovative concrete composites by upscaling material properties. This project aims to develop an upscaling process to correlate micro-nano properties of engineering materials to their comprehensive physicochemical properties based on systematic mechanical and statistical analysis approaches and nanoindentation technology. The process will enable assessing material mechanical and viscoelastic properties at a microscale level thus will generate a new knowledge in structural engineering discipline including health monitoring, assessment of existing structures, historical buildings, and strengthening and repairing materials in structures. The outcomes are a multiscale link model for upscaling material properties and a development of innovative reinforced concrete composites which are cost-effective and efficient.Read moreRead less
Ethics and aesthetics as criteria for innovation: A design research study of biological art and digital architecture. The project will contribute to the goal of promoting innovation in three areas. First, the project will amplify Australia's individual strengths in biological art and digital architecture by creating a network of artists and designers in which each discipline is stimulated by the concerns and practices of the other. Second, the project will explain innovation in such networks, by ....Ethics and aesthetics as criteria for innovation: A design research study of biological art and digital architecture. The project will contribute to the goal of promoting innovation in three areas. First, the project will amplify Australia's individual strengths in biological art and digital architecture by creating a network of artists and designers in which each discipline is stimulated by the concerns and practices of the other. Second, the project will explain innovation in such networks, by identifying activities that lead to innovation. Such an explanation will improve the nation's capacity to promote innovation in targeted fields. Third, the project will test and develop collaboration tools designed to support the activities identified as leading to innovation, as information technology is a primary enabler for operating across such networks.
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A 21st century laboratory testing device for geotechnical engineering. This project aims to use advanced image analysis and cloud computing technologies to replace manual, time-consuming and subjective geotechnical engineering practices with a rapid, automated, and more rational approach. A new geo-materials testing system based on the existing triaxial apparatus will be developed that employs three-dimensional image capture hardware and advanced image analysis techniques. The data measured over ....A 21st century laboratory testing device for geotechnical engineering. This project aims to use advanced image analysis and cloud computing technologies to replace manual, time-consuming and subjective geotechnical engineering practices with a rapid, automated, and more rational approach. A new geo-materials testing system based on the existing triaxial apparatus will be developed that employs three-dimensional image capture hardware and advanced image analysis techniques. The data measured over the entire sample surface will feed into an automated, intelligent parameter selection procedure combining finite element analysis with numerical optimisation techniques. Application of the proposal’s findings will allow more accurate and efficient engineering design of transport and energy infrastructure that supports modern economies.Read moreRead less
Exploring The Potential For Built Environment Intervention To Improve Adult And Child Physical Activity And Health
Funder
National Health and Medical Research Council
Funding Amount
$309,428.00
Summary
Health-promoting behaviours - such as physical activity - that are maintained from childhood to adulthood have a positive effect on health status. My research will examine aspects of the built environment associated with child behaviour, health and development and use these findings to formulate recommendations to key stakeholders for the design of user-friendly, active-living environments for children and interventions targeting adults.
Design practice research: uncovering the role of spatial intelligence in designing and in reviewing design of the built environment. This project will result in the identification and methodical analysis of spatial intelligence as deployed by Architects, Landscape Architects and Urban Designer practitioners. It will also explore improvements and invention of new design policies and design procurement procedures which are informed by deeper understandings of Spatial Intelligence.