Integrating architectural, mathematical and computing knowledge to capture the dynamics of air in design. This research will bring together architectural, mathematical and computing knowledge to discover effective ways to design buildings and cities that are more responsive to the complex dynamics of air movement and temperature. This knowledge will lead to reduced energy consumption and carbon dioxide emissions, increased comfort and more usable public space.
Demonstrating the feasibility of designing sustainable buildings using evolutionary systems. The design approach proposed in this research will result in two key areas of national benefit. First, the research will enable Australian built environment design professions to become more competitive in both domestic and international markets. There is a growing demand for environmentally-friendly buildings and the proposed design approach will enable Australian firms to be at the cutting edge of sust ....Demonstrating the feasibility of designing sustainable buildings using evolutionary systems. The design approach proposed in this research will result in two key areas of national benefit. First, the research will enable Australian built environment design professions to become more competitive in both domestic and international markets. There is a growing demand for environmentally-friendly buildings and the proposed design approach will enable Australian firms to be at the cutting edge of sustainable design. Second, the research will enable the Australian built environment to become more sustainable. The proposed approach will enable buildings to be designed that perform well, that are cost effective and that minimise their environmental impact. Read moreRead less
Designing distanced intergenerational interaction with tangible technology. Older people and their young relatives/grandchildren who are geographically distanced cannot currently experience closeness in tangible ways, which are the natural ways they would play and build relationships in “real” life. Enabling this connection would have positive impacts for both groups, and two types of technologies – Mixed Reality and Tangibles - can be explored to allow us to understand how to do this. We will d ....Designing distanced intergenerational interaction with tangible technology. Older people and their young relatives/grandchildren who are geographically distanced cannot currently experience closeness in tangible ways, which are the natural ways they would play and build relationships in “real” life. Enabling this connection would have positive impacts for both groups, and two types of technologies – Mixed Reality and Tangibles - can be explored to allow us to understand how to do this. We will develop approaches to distanced tangible intergenerational interaction which are designed specifically to increase intergenerational closeness and to be innovative and subtle so that they fit seamlessly into the lives of older people and young children.Read moreRead less
Facilitating intuitive interaction with complex devices for older users. Poorly designed interfaces impact more strongly on older people. Helping designers to make more intuitive interfaces for older community members has great potential for improving their lives and health, and thus benefiting the community generally. Making modern devices easier for older people to use will allow them to participate more fully in society and/or the workplace. This will also help to prevent them from becoming i ....Facilitating intuitive interaction with complex devices for older users. Poorly designed interfaces impact more strongly on older people. Helping designers to make more intuitive interfaces for older community members has great potential for improving their lives and health, and thus benefiting the community generally. Making modern devices easier for older people to use will allow them to participate more fully in society and/or the workplace. This will also help to prevent them from becoming isolated and possibly depressed. This project will apply intuitive interaction to healthcare devices that older people use, which can save costly mistakes and even lives.Read moreRead less
Enhancing the fire and energy ratings of cold-formed steel wall systems. This project intends to develop novel cold-formed light-gauge steel frame (LSF) wall systems with superior fire resistance and energy ratings for use in buildings. LSF systems are increasingly used in homes and offices. The project plans to investigate fundamental thermal, structural and energy performances of LSF walls and their components using experimental and numerical studies. It plans to develop enhanced plasterboards ....Enhancing the fire and energy ratings of cold-formed steel wall systems. This project intends to develop novel cold-formed light-gauge steel frame (LSF) wall systems with superior fire resistance and energy ratings for use in buildings. LSF systems are increasingly used in homes and offices. The project plans to investigate fundamental thermal, structural and energy performances of LSF walls and their components using experimental and numerical studies. It plans to develop enhanced plasterboards, insulations and innovative composite panels using suitable nanomaterials, chemical additives, fillers and phase-change materials and use these with innovative wall configurations to significantly improve the fire and energy performance of LSF walls. The new wall systems may increase occupant comfort and safety, reduce business losses in fires, and lead to low-energy buildings.Read moreRead less
Building A Better Built Environment for Older Australian's Ageing-in-place. Most older Australians prefer to age in place after their retirement. This project aims to understand how the built environment as a comprehensive system supports (or hinders) their ageing-in-place given that the existing Australian built environment fails to meet older Australians' requirements for independent living. This project expects to generate new knowledge in the area of ageing-friendly communities using Bayesia ....Building A Better Built Environment for Older Australian's Ageing-in-place. Most older Australians prefer to age in place after their retirement. This project aims to understand how the built environment as a comprehensive system supports (or hinders) their ageing-in-place given that the existing Australian built environment fails to meet older Australians' requirements for independent living. This project expects to generate new knowledge in the area of ageing-friendly communities using Bayesian Network analysis and interactive design charrettes. Expected outcomes include an evidence-based Bayesian network model that determines how the built environment affects independent living in the community and design innovation and guidelines to improve the built environment design for older Australians' ageing-in-place.Read moreRead less
Designing offices well. This project aims to describe, quantify and analyse the impact of workspace design on workers’ satisfaction, productivity and health. The Australian market is the fastest adopter of Activity-Based Working (ABW) in the world and impacts arising from this workspace typology on workers will be significant now and in the next decade. This project will develop benchmarking for ABW offices, techniques for monitoring cognitive performance in situ, and design guidelines for healt ....Designing offices well. This project aims to describe, quantify and analyse the impact of workspace design on workers’ satisfaction, productivity and health. The Australian market is the fastest adopter of Activity-Based Working (ABW) in the world and impacts arising from this workspace typology on workers will be significant now and in the next decade. This project will develop benchmarking for ABW offices, techniques for monitoring cognitive performance in situ, and design guidelines for health promotion. By shifting attention to design features that actually perform well, this project will provide the empirical basis needed to transform the way workspaces are designed now and in the future. It will therefore lead to greater productivity in and among workplaces.Read moreRead less
History in their bones: A diachronic, bioarchaeological study of diet, mobility and social organisation from Cambodian skeletal assemblages. Australia will further enhance its role as an innovator in the archaeology of SE Asia through this cross-disciplinary, international collaboration on the mobility, health, age and diet in ancient Cambodia. Local collaborations will be expanded and academic and cultural relations with Cambodia will be reinforced and strengthened. This research will expand ....History in their bones: A diachronic, bioarchaeological study of diet, mobility and social organisation from Cambodian skeletal assemblages. Australia will further enhance its role as an innovator in the archaeology of SE Asia through this cross-disciplinary, international collaboration on the mobility, health, age and diet in ancient Cambodia. Local collaborations will be expanded and academic and cultural relations with Cambodia will be reinforced and strengthened. This research will expand understanding of Cambodian history and underscore its pivotal role in mainland SE Asian archaeology. Australia's advancement of knowledge about Cambodia's rich cultural antiquity will be recognized worldwide by a global community acutely mindful of the losses to culture and heritage endured by Cambodia in the recent past.Read moreRead less
Mitigating Vehicular Crashes into Masonry Buildings . Around 2000 vehicles crash annually into school, home and shop buildings located at close proximity to heavily trafficked roads in Australia and cause significant distress to occupants of building and vehicle. The impacted walls mostly of masonry, suffer severe damage often with vehicle intrusion into the building. Despite this, the intrusion mechanism is not understood and no effective mitigation strategies exist at present. This project wi ....Mitigating Vehicular Crashes into Masonry Buildings . Around 2000 vehicles crash annually into school, home and shop buildings located at close proximity to heavily trafficked roads in Australia and cause significant distress to occupants of building and vehicle. The impacted walls mostly of masonry, suffer severe damage often with vehicle intrusion into the building. Despite this, the intrusion mechanism is not understood and no effective mitigation strategies exist at present. This project will uncover the mechanics of vehicle intrusions through masonry walls and develop novel mitigation strategies using high energy absorbing auxetic composite render and innovative vibration isolation at wall edges. These innovations will lead to new theories that can save lives in the building and vehicle.Read moreRead less
Safety and robustness of tall timber buildings under extreme dynamic events. This project aims to develop innovative and robust structural connections in tall mass timber buildings by characterising their mechanical behaviour under dynamic loads induced by extreme events like earthquakes or progressive collapse. This project expects to generate new knowledge in the safe, economic, and efficient design of mass timber buildings. Expected outcomes of this project include enhanced robustness design ....Safety and robustness of tall timber buildings under extreme dynamic events. This project aims to develop innovative and robust structural connections in tall mass timber buildings by characterising their mechanical behaviour under dynamic loads induced by extreme events like earthquakes or progressive collapse. This project expects to generate new knowledge in the safe, economic, and efficient design of mass timber buildings. Expected outcomes of this project include enhanced robustness design guidelines for the engineering community. This should lead to significant benefits, such as contributing to uptake of viable low-cost timber housing solutions in response to population growth and contributing to net zero emissions in Australia by 2050, and transition to safer and resilient infrastructure in urban development.Read moreRead less