New Optimisation and Control Technologies for Milk Powder Manufacturing Processes. Advanced optimisation and control are considered to be one of the top technologies that help milk powder producers operate their plants more efficiently. However, the successful implementations of these technologies are limited due to poor understanding of the relationship between raw material variations and process disturbances with the target variables. Moreover, uncertainties in process measurements also preven ....New Optimisation and Control Technologies for Milk Powder Manufacturing Processes. Advanced optimisation and control are considered to be one of the top technologies that help milk powder producers operate their plants more efficiently. However, the successful implementations of these technologies are limited due to poor understanding of the relationship between raw material variations and process disturbances with the target variables. Moreover, uncertainties in process measurements also prevent reliable control and effective optimisation. This project aims to address these gaps by developing new optimisation and control methods based on effective model reduction and uncertainty process variable identification, to enable Australian milk powder manufacturers to continuously improve productivity and reduce cost.Read moreRead less
Visual intelligence for safe vehicle operation in industrial environment. Visual intelligence for safe vehicle operation in industrial environment. This project aims to develop safety devices for loosely constrained environments with public access, building on visual-based collision avoidance technology in controlled industrial settings. Increasing productivity in industrial workplaces creates a need for faster industrial vehicles. At fruit and vegetable markets and construction sites, forklift ....Visual intelligence for safe vehicle operation in industrial environment. Visual intelligence for safe vehicle operation in industrial environment. This project aims to develop safety devices for loosely constrained environments with public access, building on visual-based collision avoidance technology in controlled industrial settings. Increasing productivity in industrial workplaces creates a need for faster industrial vehicles. At fruit and vegetable markets and construction sites, forklift drivers, crane operators and crews are under pressure to move faster. The need for higher speed and the enormous human and financial cost of unsafe operations create opportunities for the deployment of intelligent safety devices. The expected outcomes of this project are safer public industrial environments, reductions in work related injuries, injury compensation costs and associated societal burdens.Read moreRead less
Intelligent collision avoidance system for mobile industrial platforms. This project will develop a collision prevention system for mobile industrial platforms that enhances existing artificial vision perception systems to mimic human eye capabilities. The outcomes of this project will result in significant reductions in work related injuries, injury compensation costs and associated societal burdens.
Industrial Transformation Training Centres - Grant ID: IC140100003
Funder
Australian Research Council
Funding Amount
$2,389,935.00
Summary
The ARC Research Training Centre for Naval Design and Manufacturing. ARC Training Centre for Transforming Australia's Naval Manufacturing Industry. The aim of the Training Centre is to transform the Australian naval manufacturing industry by creating a new cohort of industry-focused, high-level and broadly skilled engineers and researchers. The resulting network of engineering researchers will enable the industry to more rapidly innovate and solve key problems concerning the efficient design, co ....The ARC Research Training Centre for Naval Design and Manufacturing. ARC Training Centre for Transforming Australia's Naval Manufacturing Industry. The aim of the Training Centre is to transform the Australian naval manufacturing industry by creating a new cohort of industry-focused, high-level and broadly skilled engineers and researchers. The resulting network of engineering researchers will enable the industry to more rapidly innovate and solve key problems concerning the efficient design, construction and sustainment of naval platforms. This industrial transformation will bring significant benefits to Australia as it commences a very ambitious shipbuilding program comprising the design and manufacture of new fleets of submarines, future frigates and patrol boats. The success of these major projects is reliant on developing this cohort of researchers to solve the key research questions.Read moreRead less
ARC Centre of Excellence for Robotic Vision. Robots are vital to Australia's future prosperity in the face of high relative wages, low or decreasing productivity, and impending labour shortages. However the work and workplaces of our most important industries are unstructured and changeable and current robots are challenged by their inability to quickly, safely and reliably "see" and "understand" what is around them. The Centre's research will create the fundamental science and technologies th ....ARC Centre of Excellence for Robotic Vision. Robots are vital to Australia's future prosperity in the face of high relative wages, low or decreasing productivity, and impending labour shortages. However the work and workplaces of our most important industries are unstructured and changeable and current robots are challenged by their inability to quickly, safely and reliably "see" and "understand" what is around them. The Centre's research will create the fundamental science and technologies that will allow robots to see as we do, and overcome the last barrier to the ubiquitous deployment of robots into society for the benefit of all.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100168
Funder
Australian Research Council
Funding Amount
$550,000.00
Summary
Integrated Functional Printing Facility for Advanced Material Technologies. The project aims to develop Australia’s first fully integrated small-scale and agile prototyping facility for printing. This facility will provide critical infrastructure to deposit a wide range of advanced materials with unprecedented precision & process flexibility allowing realistic form, configuration and device-ready formats with minimal usage of functional ink. Using this unique facility, researchers will be able t ....Integrated Functional Printing Facility for Advanced Material Technologies. The project aims to develop Australia’s first fully integrated small-scale and agile prototyping facility for printing. This facility will provide critical infrastructure to deposit a wide range of advanced materials with unprecedented precision & process flexibility allowing realistic form, configuration and device-ready formats with minimal usage of functional ink. Using this unique facility, researchers will be able to assess integration of novel functional materials in a wide range of devices and applications, including critical components of affordable healthcare diagnostic devices, advanced security features in banknotes, integrated RFID tracking systems, high performance solar cells and separation membranes. Read moreRead less
Decision support systems for the implementation of team based cellular manufacturing in adaptive organizations. Cellular manufacturing, where a family of products is produced in discrete multi-machine cells, has been adopted by many firms to increase flexibility, reduce costs and improve quality. However the implementation of cellular manufacturing is a complex process as technology, customer needs, product characteristics, enterprise goals and organisation structure can influence the effectiven ....Decision support systems for the implementation of team based cellular manufacturing in adaptive organizations. Cellular manufacturing, where a family of products is produced in discrete multi-machine cells, has been adopted by many firms to increase flexibility, reduce costs and improve quality. However the implementation of cellular manufacturing is a complex process as technology, customer needs, product characteristics, enterprise goals and organisation structure can influence the effectiveness of the implementation. This project will develop an intelligent model for the implementation of cellular manufacturing in batch production and test it in a case study. The work will contribute to Australia's contribution to the Intelligent Manufacturing Systems international research project SYMPHONY.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100175
Funder
Australian Research Council
Funding Amount
$347,070.00
Summary
Three-dimensional additive bio-fabrication facility: printing bioprinters. This project aims to develop bioprinting systems that will provide new insights into fundamental biological processes. The 3D Additive Bio-Fabrication Facility - Printing Bioprinters capability will use 3D polymer and metal additive manufacturing technologies to create the next generation of bioprinting methodologies and 3D fabrication tools. It is the aim that these customised additive manufacturing systems will be used ....Three-dimensional additive bio-fabrication facility: printing bioprinters. This project aims to develop bioprinting systems that will provide new insights into fundamental biological processes. The 3D Additive Bio-Fabrication Facility - Printing Bioprinters capability will use 3D polymer and metal additive manufacturing technologies to create the next generation of bioprinting methodologies and 3D fabrication tools. It is the aim that these customised additive manufacturing systems will be used to produce structures wherein living cells are spatially organised in combination with appropriate biomaterials and bioactive components, such as drugs or growth factors, in order to influence subsequent biological behaviour.Read moreRead less
A universally efficient antibacterial coating with remarkable durability. To prevent the spread of diseases and infections through contaminated surfaces, the project intends to create new ceramic-based coatings that combine mechanical durability with broad-spectrum antibacterial activities. Around 200 000 infections, many fatal, occur in Australian hospitals each year, with contaminated surfaces being a primary source. To combat this challenge, the project aims to develop a new class of ceramic- ....A universally efficient antibacterial coating with remarkable durability. To prevent the spread of diseases and infections through contaminated surfaces, the project intends to create new ceramic-based coatings that combine mechanical durability with broad-spectrum antibacterial activities. Around 200 000 infections, many fatal, occur in Australian hospitals each year, with contaminated surfaces being a primary source. To combat this challenge, the project aims to develop a new class of ceramic-based coatings, which are extremely robust yet highly effective in eliminating common and emerging bacteria, by uniting new antibacterial agents into a self-toughening micro-architecture. By disrupting bacterial transmission through surfaces, this project promises to protect the wellbeing of patients and healthcare professionals, and to help maintain food and water safety standards in Australia.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100175
Funder
Australian Research Council
Funding Amount
$475,000.00
Summary
A high-payload, high-fidelity haptically-enabled motion simulation facility. An Australian-first motion simulation facility consisting of a high-payload, high-fidelity Stewart platform mounted on a dual-axis linear track is proposed. The facility will allow high acceleration and high vibration manoeuvres, and large displacements through an eight-degrees-of-freedom range of motion. It can carry the entire control compartment of a heavy vehicle, a truck, an ambulance, a train, or a multi-operator ....A high-payload, high-fidelity haptically-enabled motion simulation facility. An Australian-first motion simulation facility consisting of a high-payload, high-fidelity Stewart platform mounted on a dual-axis linear track is proposed. The facility will allow high acceleration and high vibration manoeuvres, and large displacements through an eight-degrees-of-freedom range of motion. It can carry the entire control compartment of a heavy vehicle, a truck, an ambulance, a train, or a multi-operator cockpit of a mining vehicle for simulation. The outcome will provide significant benefits for virtual vehicle prototyping and testing, driver training and behaviour modelling, motion perception and motion sickness research; therefore advancing Australia as the global leader in motion simulation and vehicular technologies.Read moreRead less