Industrial Transformation Training Centres - Grant ID: IC200100022
Funder
Australian Research Council
Funding Amount
$4,883,406.00
Summary
ARC Training Centre for Information Resilience. The proposed centre aims at building workforce capacity in Australian organisations to create, protect and sustain agile data pipelines, capable of detecting and responding to failures and risks across the information value chain in which the data is sourced, shared, transformed, analysed and consumed. Building on strong foundations of responsible data science, the centre will bring together end-users, technology providers, and cutting-edge researc ....ARC Training Centre for Information Resilience. The proposed centre aims at building workforce capacity in Australian organisations to create, protect and sustain agile data pipelines, capable of detecting and responding to failures and risks across the information value chain in which the data is sourced, shared, transformed, analysed and consumed. Building on strong foundations of responsible data science, the centre will bring together end-users, technology providers, and cutting-edge research, to lift the socio-technical barriers to data driven transformation and develop resilient data pipelines capable of delivering game-changing productivity gains that position Australian organisations at the forefront of technology leadership and value creation from data assets. Read moreRead less
Productivity and work-life balance in technology-enabled virtual work environments. This project examines the impact of technology-enabled virtual work environments on the productivity and work-life balance of professional knowledge workers. Guidelines will be developed that improve organisational and individual outcomes for professional knowledge workers who use technology extensively in their interactions with others.
Location-Based Personalisation in Mobile Commerce (M-Commerce). M-commerce, though playing an important role in future competitiveness of Australia, suffers a low user demand. While location-based services have taken off in Europe, they are still at their infancy in Australia. In terms of IT access, Australia is ranked lower than many Asian countries. Our work gains an understanding of users' concerns and expectations of location-based services, which leads to better application designs and thus ....Location-Based Personalisation in Mobile Commerce (M-Commerce). M-commerce, though playing an important role in future competitiveness of Australia, suffers a low user demand. While location-based services have taken off in Europe, they are still at their infancy in Australia. In terms of IT access, Australia is ranked lower than many Asian countries. Our work gains an understanding of users' concerns and expectations of location-based services, which leads to better application designs and thus a wider adoption. An examination of users' attitude towards personalised content and concerns about data privacy provides insights to Australian legislation in relation to telemarketing and data-driven marketing. National benefits will stem from a balance between telemarketing efficiency and users' benefits.Read moreRead less
A quantum bus for large-scale diamond quantum computers. This project aims to experimentally demonstrate a device needed to bus quantum information between defect clusters in large scale quantum computers. Quantum computers could transcend limits of today’s ‘classical’ computers. Diamond is a proven platform for small-scale quantum computing and simple quantum algorithms have already been demonstrated using small clusters of diamond defects. To build a large-scale quantum computer that can reali ....A quantum bus for large-scale diamond quantum computers. This project aims to experimentally demonstrate a device needed to bus quantum information between defect clusters in large scale quantum computers. Quantum computers could transcend limits of today’s ‘classical’ computers. Diamond is a proven platform for small-scale quantum computing and simple quantum algorithms have already been demonstrated using small clusters of diamond defects. To build a large-scale quantum computer that can realise the potential of quantum computing, a device must be invented to bus quantum information between defect clusters. This project will experimentally demonstrate physical mechanisms that were theoretically identified for the operation of such a device. This is expected to make a quantum bus for large-scale diamond quantum computers possible.Read moreRead less
Discovery Indigenous Researchers Development - Grant ID: DI0989056
Funder
Australian Research Council
Funding Amount
$30,000.00
Summary
Adoption and Effective Use of Information Communication Technologies in Indigenous Communities in Australia. This project on Indigenous use of the internet aims to identify the reasons why Indigenous Australians are 69% less likely to access the Internet than their non-Indigenous counterparts as demonstrated in the last census. This research will assist in innovative policy development including the creation of a culturally-sensitive model to assist Indigenous communities to raise their use of c ....Adoption and Effective Use of Information Communication Technologies in Indigenous Communities in Australia. This project on Indigenous use of the internet aims to identify the reasons why Indigenous Australians are 69% less likely to access the Internet than their non-Indigenous counterparts as demonstrated in the last census. This research will assist in innovative policy development including the creation of a culturally-sensitive model to assist Indigenous communities to raise their use of computers and the internet. Ultimately the aim of the research is to provide mechanisms to engage Indigenous people with current technology to advance health, education and housing outcomes in their communities. Read moreRead less
Breaking barriers to high-performance room-temperature quantum technologies. This project aims to break the major barriers to realising high-performance quantum technologies that operate at room temperature by exploiting the unique properties of colour centres in diamond and two-dimensional materials. This project expects to yield profound new knowledge of colour centres and new theoretical methods, experimental techniques and quantum devices. Expected outcomes are significant enhancements of ....Breaking barriers to high-performance room-temperature quantum technologies. This project aims to break the major barriers to realising high-performance quantum technologies that operate at room temperature by exploiting the unique properties of colour centres in diamond and two-dimensional materials. This project expects to yield profound new knowledge of colour centres and new theoretical methods, experimental techniques and quantum devices. Expected outcomes are significant enhancements of existing technologies, invention of novel two-dimensional technologies, and expanded domestic capability and international collaborations in quantum technology. These outcomes will benefit Australia by securing its global competitiveness in quantum industry and providing transformative tools to science, defence and industry.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE170100169
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
Diamond quantum technology. This project aims to advance diamond quantum technologies by discovering and engineering defects, innovating quantum microscopy techniques and enabling large-scale diamond quantum computing. Quantum technologies could transcend the limits of today’s current technologies. Defects in diamond are a proven platform for the development of quantum microscopes which could yield images of nature at the atomic scale and quantum computers that may solve problems too difficult f ....Diamond quantum technology. This project aims to advance diamond quantum technologies by discovering and engineering defects, innovating quantum microscopy techniques and enabling large-scale diamond quantum computing. Quantum technologies could transcend the limits of today’s current technologies. Defects in diamond are a proven platform for the development of quantum microscopes which could yield images of nature at the atomic scale and quantum computers that may solve problems too difficult for classical computers. This project will employ an integrated research approach, spanning fundamental theory to device design and demonstration. Key anticipated outcomes are international collaboration and knowledge, capability and training in quantum microscopy and computing. This will benefit Australia by securing its global competiveness in the emerging market of quantum technology.Read moreRead less
Electric field imaging of single charges and molecules via spins in diamond. This project aims to build, demonstrate and advance quantum microscopes in Australia. The microscopes are based on the quantum metrology capabilities of nitrogen-vacancy centre defect spins in diamond. The project will use the microscopes to produce nanoscale images of the electric fields of individual electric charges and molecules in ambient conditions. It will then extend the capabilities of the microscopes towards t ....Electric field imaging of single charges and molecules via spins in diamond. This project aims to build, demonstrate and advance quantum microscopes in Australia. The microscopes are based on the quantum metrology capabilities of nitrogen-vacancy centre defect spins in diamond. The project will use the microscopes to produce nanoscale images of the electric fields of individual electric charges and molecules in ambient conditions. It will then extend the capabilities of the microscopes towards the vibrational resonance imaging of single molecules. This project could improve the study of electronic processes in biology and nanotechnology and the structure and properties of complex molecules. It may also enable advances in interdisciplinary research and the development of high-performance materials, nanoelectronic devices and associated industry.Read moreRead less
Mechanical control of defect spins in diamond and its applications in quantum technology. This project will demonstrate the mechanical control of optically addressable defect spins in diamond in order to rapidly exploit innovative approaches to quantum technologies, including high sensitivity metrology and information processing. This will be achieved by capitalising on the proven quantum applications of the nitrogen-vacancy defect centre in diamond and the performance of both fundamental inquir ....Mechanical control of defect spins in diamond and its applications in quantum technology. This project will demonstrate the mechanical control of optically addressable defect spins in diamond in order to rapidly exploit innovative approaches to quantum technologies, including high sensitivity metrology and information processing. This will be achieved by capitalising on the proven quantum applications of the nitrogen-vacancy defect centre in diamond and the performance of both fundamental inquiry into the effects of mechanical stress on this centre and the design, fabrication and operation of simple nano-mechanical devices. Read moreRead less
Industrial Transformation Training Centres - Grant ID: IC210100056
Funder
Australian Research Council
Funding Amount
$3,975,864.00
Summary
ARC Training Centre for Next-Gen Technologies in Biomedical Analysis . The Centre for Next-Gen Technologies in Biomedical Analysis will deliver workforce trained in the development of transformative technologies that will rapidly expand the Australian pharmaceutical, diagnostic and defence sector. The university-industry partnership will increase Australia’s manufacturing capability by fast tracking screening, by integrating 3D printing, advanced sensing, big data analytics, machine learning an ....ARC Training Centre for Next-Gen Technologies in Biomedical Analysis . The Centre for Next-Gen Technologies in Biomedical Analysis will deliver workforce trained in the development of transformative technologies that will rapidly expand the Australian pharmaceutical, diagnostic and defence sector. The university-industry partnership will increase Australia’s manufacturing capability by fast tracking screening, by integrating 3D printing, advanced sensing, big data analytics, machine learning and artificial intelligence for the delivery of optimal solutions in diagnosis, treatment and wellbeing. The centre will deliver training in Industry 4.0 skills which will boost early-stage scale-up and accelerate the sector’s supply chain, which is pivotal for the Australian industries to maintain a competitive edge. Read moreRead less