The Omnium Project: Formalising a System and Approach for an Effective Online Collaborative Design Process in Visual Communication. An online collaborative design process is emerging in response to the global economy, increasing complexity of visual communication design projects and rapid developments in Internet technology. Research is required to identify and address the interdependence of various social, physical and technical factors that affect online design collaboration. The Omnium Projec ....The Omnium Project: Formalising a System and Approach for an Effective Online Collaborative Design Process in Visual Communication. An online collaborative design process is emerging in response to the global economy, increasing complexity of visual communication design projects and rapid developments in Internet technology. Research is required to identify and address the interdependence of various social, physical and technical factors that affect online design collaboration. The Omnium Project is an experiment that uses its unique framework to test online modes of interaction (physical) and collaboration (social) for visual communication designers. The outcome will produce an online technical-system and formalise a documented conceptual-approach for effective online collaborative design in visual communication.Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC220100012
Funder
Australian Research Council
Funding Amount
$4,939,486.00
Summary
ARC Training Centre for Advanced Building Systems Against Airborne Infection Transmission. The aim of the Centre is to engineer building systems whose elements work together to reduce airborne infection transmission by improving indoor air quality while maintaining comfort and efficiency. The significance is in establishing clean indoor air as the norm, with Australian industry being the forerunner in this process. The outcomes include new intelligent building systems, improved building technolo ....ARC Training Centre for Advanced Building Systems Against Airborne Infection Transmission. The aim of the Centre is to engineer building systems whose elements work together to reduce airborne infection transmission by improving indoor air quality while maintaining comfort and efficiency. The significance is in establishing clean indoor air as the norm, with Australian industry being the forerunner in this process. The outcomes include new intelligent building systems, improved building technologies, quantitative methods for building control, evidence for policymaking and recommendations for operational guidelines. Wide-ranging benefits include reducing the health and economic burden of inadequate indoor air and increasing the competitiveness of Australian industry in the face of increasing demand for next-level building systems.Read moreRead less
Seismic attenuation of structures through use of magnetorheological dampers. This project aims to improve understanding of the attenuating characteristics of the co-flowing of magnetised solid particles and fluid in a conduit subject to seismic waves generated by rapid ground movement. The distribution of magnetised solid particles in fluid plays an important role in the design of large-scale magnetorhelogical dampers for seismic conditions. These dampers promote the protection of historical str ....Seismic attenuation of structures through use of magnetorheological dampers. This project aims to improve understanding of the attenuating characteristics of the co-flowing of magnetised solid particles and fluid in a conduit subject to seismic waves generated by rapid ground movement. The distribution of magnetised solid particles in fluid plays an important role in the design of large-scale magnetorhelogical dampers for seismic conditions. These dampers promote the protection of historical structures and eliminate costly rebuilding of architectural structures. The project plans to perform experimental and numerical investigations to develop robust and accurate predictive models to improve understanding of the seismic attenuation of next-generation magnetorhelogical dampers, prevalent in semi-active control devices, and of the ability of such devices to suppress elevated structural vibrations.Read moreRead less
Nonlinear Analysis And Behaviour Of Thin Concrete Axisymmeric Shells. This project concerns the highly complex behaviour of thin concrete shells and domes. These structures were in vogue in Australia in the 1970's because their construction is highly efficient, but their use ceased following several collapses. The reason was an inability at the time to predict their behaviour, which requires challenging theoretical methodologies and computer software. The project will develop sophisticated mathe ....Nonlinear Analysis And Behaviour Of Thin Concrete Axisymmeric Shells. This project concerns the highly complex behaviour of thin concrete shells and domes. These structures were in vogue in Australia in the 1970's because their construction is highly efficient, but their use ceased following several collapses. The reason was an inability at the time to predict their behaviour, which requires challenging theoretical methodologies and computer software. The project will develop sophisticated mathematical tools, that include concrete shrinkage, creep, cracking and thermal effects, to enable the design of safe concrete shells and domes, and it is underpinned by and builds on support awarded recently by the ARC to the investigators.Read moreRead less
Nonlinear Analysis and Behaviour of Shallow Concrete Arches. Concrete arches are widespread structural elements, but they are usually deep so that predicting their response is routine. The analysis of shallow arches is much more difficult, and with the contemporary use of higher strength concretes, shallow arches are often the optimum geometric configuration. This project aims to investigate the profoundly nonlinear behaviour of flat arches, which may be close to snap-through buckling, even unde ....Nonlinear Analysis and Behaviour of Shallow Concrete Arches. Concrete arches are widespread structural elements, but they are usually deep so that predicting their response is routine. The analysis of shallow arches is much more difficult, and with the contemporary use of higher strength concretes, shallow arches are often the optimum geometric configuration. This project aims to investigate the profoundly nonlinear behaviour of flat arches, which may be close to snap-through buckling, even under service load, due to creep and shrinkage. This research will fill an important gap in structural mechanics, and produce fundamental insights into the response of arches containing concrete. The outcomes will include much needed design guidance.Read moreRead less
Bushfire-enhanced wind and its effects on buildings. This project seeks to advance our understanding of bushfire–wind interaction to improve current design standards for buildings against bushfire-enhanced winds. Bushfire-enhanced winds have caused considerable property damage and loss of lives. The project aims to identify the mechanisms governing bushfire–wind interaction and determine the wind load effects on buildings due to bushfire-enhanced wind. It aims to do so by using advanced computat ....Bushfire-enhanced wind and its effects on buildings. This project seeks to advance our understanding of bushfire–wind interaction to improve current design standards for buildings against bushfire-enhanced winds. Bushfire-enhanced winds have caused considerable property damage and loss of lives. The project aims to identify the mechanisms governing bushfire–wind interaction and determine the wind load effects on buildings due to bushfire-enhanced wind. It aims to do so by using advanced computation techniques and unique fire-wind tunnel test facility. This knowledge is designed to guide the development of improved building construction standards for bushfire-prone regions to facilitate the design and construction of a new generation of bushfire-resistant buildings that safeguard lives and properties against the increasing threat of bushfire due to climate change.Read moreRead less
ANATOMICAL ORGAN MODELLING AND SURGICAL PROCEDURE SIMULATION FOR THORACOSCOPIC SURGERY. We aim to establish novel virtual reality-based surgical procedure simulation methodologies, geometric and physical models of human organs, and surgical tools and interaction modules for thoracoscopic surgery or for minimally invasive surgical procedures. This is needed to optimize surgical strategy and to anticipate possible problems that may arise during the procedure, and to train medical staff as the tren ....ANATOMICAL ORGAN MODELLING AND SURGICAL PROCEDURE SIMULATION FOR THORACOSCOPIC SURGERY. We aim to establish novel virtual reality-based surgical procedure simulation methodologies, geometric and physical models of human organs, and surgical tools and interaction modules for thoracoscopic surgery or for minimally invasive surgical procedures. This is needed to optimize surgical strategy and to anticipate possible problems that may arise during the procedure, and to train medical staff as the trend towards robotic-assisted minimally invasive surgery continues. What makes this project novel is the anatomical organ modeling approach based on virtual springs and dampers traversing between the top and bottom surfaces of the organs and tissues, contrary to previous approaches.Read moreRead less
The Centre for Research Excellence in Nursing Interventions for Hospitalised Patients will provide evidence to improve the nursing care of a broad range of hospitalised patients who are at risk of complications related to compromised skin integrity and poor pain/anxiety management. Systematic reviews and clinical trials will provide the basis for developing clinical practice guidelines to assist nurses in providing high quality care to the 3.5 million Australians admitted to hospital each year.
A new end use of recycled water for sustainable Australian water. The economic, environmental and social impacts of this project would have benefits across Australia, and the rest of the world. Recycled water has never been used in clothes washing machines anywhere in the world, by introducing it here in Australia we would save approximately 20% of domestic water used for laundry purposes. This also has significant policy implications as this would be a huge step towards the implementation of a ....A new end use of recycled water for sustainable Australian water. The economic, environmental and social impacts of this project would have benefits across Australia, and the rest of the world. Recycled water has never been used in clothes washing machines anywhere in the world, by introducing it here in Australia we would save approximately 20% of domestic water used for laundry purposes. This also has significant policy implications as this would be a huge step towards the implementation of a program of recycled water usage in Australia.Read moreRead less
Design guidelines for safety-critical controllers in high-risk environments. This project aims to generate novel product design guidelines for developing safer controllers for use by potentially stressed individuals in high-risk situations. It will do this by generating specific insights and verifying generalisable solutions from the context of total artificial heart recipients –who must engage with critical controllers constantly. This project expects to generate new knowledge in design by esta ....Design guidelines for safety-critical controllers in high-risk environments. This project aims to generate novel product design guidelines for developing safer controllers for use by potentially stressed individuals in high-risk situations. It will do this by generating specific insights and verifying generalisable solutions from the context of total artificial heart recipients –who must engage with critical controllers constantly. This project expects to generate new knowledge in design by establishing a new research topic around an under-examined user cohort. Expected outcomes of this project include interaction design theory developments and improved controller design techniques. This should provide significant benefits and competitive advantages by lowering stress and improving safety across a range of contexts.Read moreRead less