Braced batter micropile group: New design theory and performance framework. Braced batter micropile group: New design theory and performance framework. This project aims to research the design and performance of innovative biomimetic braced battered micropile group footings. This project will test Surefoot, the new concrete free footing, in the laboratory, in the field, and through numerical and analytical modelling. Surefoot’s mechanisms of action are poorly understood but clearly more complex ....Braced batter micropile group: New design theory and performance framework. Braced batter micropile group: New design theory and performance framework. This project aims to research the design and performance of innovative biomimetic braced battered micropile group footings. This project will test Surefoot, the new concrete free footing, in the laboratory, in the field, and through numerical and analytical modelling. Surefoot’s mechanisms of action are poorly understood but clearly more complex than current micropile theory; this project will research the mechanism of load transfer from micropiles to the soil and soil response.Read moreRead less
Transforming building environmental design: streamlining environmental decision-making for building designers. The project will significantly reduce national energy demand and greenhouse gas emissions associated with the construction and operation of new and existing buildings. This will help to reduce the potential impacts of climate change on Australians and provides a highly cost-effective solution for mitigating and adapting to climate change.
Advancing the Engineering of Minipile Systems to Frontier Applications. This project aims to develop new knowledge on the performance of battered minipile systems used in a wide range of applications from solar panels to traffic signs. Minipiles provide concrete-free foundation systems, yet their behaviour under more complex loading such as wind, is yet to be fully understood. This project will examine the loading conditions experienced during installation and throughout service life. This will ....Advancing the Engineering of Minipile Systems to Frontier Applications. This project aims to develop new knowledge on the performance of battered minipile systems used in a wide range of applications from solar panels to traffic signs. Minipiles provide concrete-free foundation systems, yet their behaviour under more complex loading such as wind, is yet to be fully understood. This project will examine the loading conditions experienced during installation and throughout service life. This will include complex full-scale laboratory tests and advanced computer modelling to verify the performance against expected cyclic loading. New design approaches will be developed for this emerging foundation system, enabling more widespread adoption of this technology in the building and construction industry.Read moreRead less
Development of deep soil mixing technology utilising industrial by-products. This project will investigate the sustainable use of industrial wastes in ground improvement works using deep soil mixing. Currently, ground improvement projects use large amounts of highly carbon intensive materials. This project aims to develop low carbon alternatives by using geopolymers, which are a mixture of industrial waste by-products such as fly ash and slag with alkali activators. This project will explore the ....Development of deep soil mixing technology utilising industrial by-products. This project will investigate the sustainable use of industrial wastes in ground improvement works using deep soil mixing. Currently, ground improvement projects use large amounts of highly carbon intensive materials. This project aims to develop low carbon alternatives by using geopolymers, which are a mixture of industrial waste by-products such as fly ash and slag with alkali activators. This project will explore the consolidation effects and stress–strain responses of soft soil improved with geopolymers under static and dynamic loading. The main expected outcome of the project is an innovative ground improvement technique using geopolymers as an alternative green binder.Read moreRead less
Determining the social value of extreme, mixed-use urban developments. Using an Adelaide case study, UCity, this project will investigate the social benefit of building mixed-use vertical communities in the Australian urban context. Using an innovative Social Value Framework, the project will establish and demonstrate the multi-dimensional impacts of such developments in practice. The project utilises citizen science for real time auditing of the built environment by residents and users; smart t ....Determining the social value of extreme, mixed-use urban developments. Using an Adelaide case study, UCity, this project will investigate the social benefit of building mixed-use vertical communities in the Australian urban context. Using an innovative Social Value Framework, the project will establish and demonstrate the multi-dimensional impacts of such developments in practice. The project utilises citizen science for real time auditing of the built environment by residents and users; smart technologies for environmental and behavioural monitoring; and data analytics and design automation for spatial analysis of building use. The results will inform new models of sustainable high-rise, mixed-use buildings; providing evidence for a Social Value Framework to become a core consideration in Australian industry.Read moreRead less
Swarming: micro-flight data capture and analysis in architectural design. The project seeks to generate new knowledge about the safe capture, management and application of big data in sustainable city design. In particular, it aims to investigate the use of micro air vehicles (drones) equipped with diverse lightweight sensing equipment to gather data including atmospheric measurements and building temperatures and reflectivity. This is designed to meet the need for more site-specific and vertica ....Swarming: micro-flight data capture and analysis in architectural design. The project seeks to generate new knowledge about the safe capture, management and application of big data in sustainable city design. In particular, it aims to investigate the use of micro air vehicles (drones) equipped with diverse lightweight sensing equipment to gather data including atmospheric measurements and building temperatures and reflectivity. This is designed to meet the need for more site-specific and vertical environmental information to inform the design of sustainable architecture. The project also aims to research a cloud-based computing framework that will be able to handle very large volumes of data collected over extended time periods and locations. The data would then be used to develop visualisations and design models to inform architecture, landscape and urban design.Read moreRead less
The sound of space: architecture for improved auditory performance in the age of digital manufacturing. This project will combine complex custom architectural surface design with acoustic modelling and simulation to look for novel solutions to the challenges of noisy interiors. It will apply digital modelling in new ways including the construction of high fidelity full scale prototypes for testing in an open office environment and a church.
Prefabricated reusable building modules: reducing building life cycle environmental impacts. The outcomes of this project will enhance Australia's ability to provide globally competitive next generation building construction solutions. It will also help to not only ensure that Australian industry is at the forefront of best-practice environmental innovation but also support industry to develop and expand export markets, providing significant economic benefits. The outcomes of this project will b ....Prefabricated reusable building modules: reducing building life cycle environmental impacts. The outcomes of this project will enhance Australia's ability to provide globally competitive next generation building construction solutions. It will also help to not only ensure that Australian industry is at the forefront of best-practice environmental innovation but also support industry to develop and expand export markets, providing significant economic benefits. The outcomes of this project will be valuable to the construction industry to make implementation of ecologically sustainable design more rigorous. Strategies for improving the environmental performance of construction, particularly through prefabrication of durable building components will be able to be better facilitated by the research undertaken in this project.Read moreRead less
Offsite manufacture reimagined for high-performance adaptable housing. The project aims to address housing performance and affordability in Australia by deploying adaptable design for spatial reconfiguration and component reuse, to advance offsite timber manufacture towards energy efficient and healthy homes as mainstream practice. The intended outcome is the development, prototyping and monitoring of an offsite manufactured panelised lightweight timber system for high-performance homes, that is ....Offsite manufacture reimagined for high-performance adaptable housing. The project aims to address housing performance and affordability in Australia by deploying adaptable design for spatial reconfiguration and component reuse, to advance offsite timber manufacture towards energy efficient and healthy homes as mainstream practice. The intended outcome is the development, prototyping and monitoring of an offsite manufactured panelised lightweight timber system for high-performance homes, that is adaptable to all Australian climates and long-term household changes. This will contribute to the sustainable growth of the Australian housing market with significant benefits on housing affordability, adaptable design and long-lasting performance, while boosting the offsite manufactured timber construction sector.Read moreRead less
Walk-quality: A multi-criteria design platform to facilitate active travel. This seminal cross-disciplinary study aims to combine key ‘walk-quality’ urban design factors: pedestrian accessibility, slope, thermal comfort, pedestrian risk, and pollution, into a design decision platform to enable systematic evaluation of precincts and test ‘what-if’ future scenarios.
With 60% of Australians not meeting recommended physical activity targets costing taxpayers billions of dollars annually, the projec ....Walk-quality: A multi-criteria design platform to facilitate active travel. This seminal cross-disciplinary study aims to combine key ‘walk-quality’ urban design factors: pedestrian accessibility, slope, thermal comfort, pedestrian risk, and pollution, into a design decision platform to enable systematic evaluation of precincts and test ‘what-if’ future scenarios.
With 60% of Australians not meeting recommended physical activity targets costing taxpayers billions of dollars annually, the project envisions development of acutely lacking spatio-temporal analysis and design tools to help prioritise urgently needed active transport infrastructure investment.
Anticipated ‘walk-quality’ improvements to facilitating active journeys have vital foreseeable community benefits through increased incidental physical activity.Read moreRead less