Multi-resolution situation recognition for urban-aware smart assistant. This project aims to develop a situation recognition framework to recognise and anticipate unforeseen emerging situations, such as schedule changes, incidents, and disruptions in an urban environment. The project will address a significant knowledge gap by capturing and modelling unpredictability in human mobility and work routines. The outcome will be a situation recognition framework that can be applied at the individual, ....Multi-resolution situation recognition for urban-aware smart assistant. This project aims to develop a situation recognition framework to recognise and anticipate unforeseen emerging situations, such as schedule changes, incidents, and disruptions in an urban environment. The project will address a significant knowledge gap by capturing and modelling unpredictability in human mobility and work routines. The outcome will be a situation recognition framework that can be applied at the individual, social group, and urban level, and at multiple locations and time scales. This should provide users with timely notifications and recommendations to resume their activities and routines. The expected benefits will be far-ranging and adaptable to many domains, from personal smart assistants to trip planning and emergency services.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130100739
Funder
Australian Research Council
Funding Amount
$354,958.00
Summary
Deterministic coherent diffractive imaging for the nanosciences. The technological trend towards nanoscale device fabrication demands picoscale measurements which will only be possible with the development of novel and advanced imaging techniques. This project will develop and implement cutting edge approaches to lensless imaging using both electrons and x-rays and will enable real-time imaging at the picoscale.
Understanding how mitochondria divide. This project aims to investigate the molecular mechanism by which mitochondria divide. Mitochondria are the powerhouse within our cells, and they grow and divide in our cells to ensure that they are transferred to daughter cells and also so that older mitochondria can be turned over. The project plans to build on the discovery of mitochondrial membrane proteins that are involved in fission. The results of the project could provide fundamental new knowledge ....Understanding how mitochondria divide. This project aims to investigate the molecular mechanism by which mitochondria divide. Mitochondria are the powerhouse within our cells, and they grow and divide in our cells to ensure that they are transferred to daughter cells and also so that older mitochondria can be turned over. The project plans to build on the discovery of mitochondrial membrane proteins that are involved in fission. The results of the project could provide fundamental new knowledge into how the mitochondrial division machine assembles and how mitochondrial fate is determined.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100150
Funder
Australian Research Council
Funding Amount
$595,280.00
Summary
Advanced multifunctional photoelectron spectroscopy platform. This project aims to establish a new integrated facility that will allow researchers to characterise the surface structure and electronic properties of materials, which is essential for a complete understanding of their functionality. The development of the next generation of electronic, optical, and biomedical devices requires new materials with properties optimised for the particular application. This facility, to be housed in state ....Advanced multifunctional photoelectron spectroscopy platform. This project aims to establish a new integrated facility that will allow researchers to characterise the surface structure and electronic properties of materials, which is essential for a complete understanding of their functionality. The development of the next generation of electronic, optical, and biomedical devices requires new materials with properties optimised for the particular application. This facility, to be housed in state-of-the-art laboratories and managed as an open access resource, will meet the needs of a large number of innovative projects and enable advances in many fields including electronics, nanotechnology, solar energy, biotechnology and advanced materials.Read moreRead less
Digital technologies and the private rental sector in Australia. This project aims to show how digital technologies are transforming the private rental sector in Australia. This project expects to generate new knowledge about the growing global reach of digital technologies aimed at private renters, landlords and property managers. The expected outcomes of this project include the production of social scientific knowledge about the potential of digital technologies to be both socially pernicious ....Digital technologies and the private rental sector in Australia. This project aims to show how digital technologies are transforming the private rental sector in Australia. This project expects to generate new knowledge about the growing global reach of digital technologies aimed at private renters, landlords and property managers. The expected outcomes of this project include the production of social scientific knowledge about the potential of digital technologies to be both socially pernicious and socially progressive. This project should provide significant benefits for Australian renters and our tenant advocacy partners who represent them, and to show how digital technologies can be used to create a better housing system.Read moreRead less
ARC Centre of Excellence for the Digital Child. Our vision is for Australian children to be healthy, educated and connected. This Centre will integrate child health, education, and digital and social connectedness, innovating across disciplines to meet Australia’s ongoing challenges of supporting young children growing up in a rapidly changing digital age. The Centre’s world-leading team investigates children’s digital practices through three interconnected research programs supported by a longi ....ARC Centre of Excellence for the Digital Child. Our vision is for Australian children to be healthy, educated and connected. This Centre will integrate child health, education, and digital and social connectedness, innovating across disciplines to meet Australia’s ongoing challenges of supporting young children growing up in a rapidly changing digital age. The Centre’s world-leading team investigates children’s digital practices through three interconnected research programs supported by a longitudinal family cohort study and children’s technology laboratories. The Centre will address tensions in a contested field to inform government and non-government policy, technology innovation, and develop programs and guidelines for children, families, educators and technology developers. Read moreRead less
Making every electron count in atomic resolution microscopy. The development of aberration-corrected electron microscopy, which allows individual atom imaging with unprecedented precision, was recognised by the 2011 Wolf Prize in Physics. However, only a very limited amount of the wealth of information obtainable from such microscopes is currently exploited. By collecting a maximal data set of electrons scattered in manifold different ways and using the fundamental theory of electron-specimen in ....Making every electron count in atomic resolution microscopy. The development of aberration-corrected electron microscopy, which allows individual atom imaging with unprecedented precision, was recognised by the 2011 Wolf Prize in Physics. However, only a very limited amount of the wealth of information obtainable from such microscopes is currently exploited. By collecting a maximal data set of electrons scattered in manifold different ways and using the fundamental theory of electron-specimen interaction, this project will realise the huge potential of this untapped data. This will improve the utility of scanning transmission electron microscopy far beyond its current level. Applying these new techniques will expand our understanding of the structure and function of advanced materials.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE170100118
Funder
Australian Research Council
Funding Amount
$1,800,000.00
Summary
UltraTEM: Resolving the structure of matter in space, energy and time. This project aims to establish a transmission electron microscope facility to analyse materials structure at the atomic level. A small number of atoms in critical locations governs the properties of materials from solar cells and catalysts to aerospace alloys, bio-sensors and quantum computers. To understand and engineer matter at this atomic level, tools are needed to characterise these critical atoms. This open access, nati ....UltraTEM: Resolving the structure of matter in space, energy and time. This project aims to establish a transmission electron microscope facility to analyse materials structure at the atomic level. A small number of atoms in critical locations governs the properties of materials from solar cells and catalysts to aerospace alloys, bio-sensors and quantum computers. To understand and engineer matter at this atomic level, tools are needed to characterise these critical atoms. This open access, national facility will be able to characterise matter at the atomic-level. Expected outcomes include better understanding of the natural world and advanced materials to solve problems in energy, technology, health, environment, communications, advanced manufacturing, transport and security.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE200100132
Funder
Australian Research Council
Funding Amount
$1,486,000.00
Summary
A triple beam microscope: new frontiers in materials nanocharacterisation. This project aims to establish a triple beam ion and electron microscope facility for the modification, preparation and characterisation of materials that have hitherto been too sensitive for high resolution analysis with charged particle beams. It is expected that materials will be studied artefact-free and at the nanoscale with twin ion beams and new detectors that allow novel imaging modes and extreme chemical sensitiv ....A triple beam microscope: new frontiers in materials nanocharacterisation. This project aims to establish a triple beam ion and electron microscope facility for the modification, preparation and characterisation of materials that have hitherto been too sensitive for high resolution analysis with charged particle beams. It is expected that materials will be studied artefact-free and at the nanoscale with twin ion beams and new detectors that allow novel imaging modes and extreme chemical sensitivity plus controlled atmosphere transfer to other instruments for correlative measurements. This unique facility should benefit research in many disciplines such as physics, chemistry, geology, pharmacy, materials, civil and chemical engineering by allowing first-ever observations of vital phenomena in diverse materials.Read moreRead less
Unlocking the potential of magnetic 2D materials with quantum microscopy. This project aims to create a universal, high-throughput platform to characterise magnetic 2D materials, by exploiting recently developed quantum diamond microscopy. It will enable the measurement of hitherto inaccessible magnetic properties of individual 2D microsheets, the imaging of device-relevant phenomena such as domain wall dynamics and skyrmionics, and the systematic screening of newly synthesised materials. Antici ....Unlocking the potential of magnetic 2D materials with quantum microscopy. This project aims to create a universal, high-throughput platform to characterise magnetic 2D materials, by exploiting recently developed quantum diamond microscopy. It will enable the measurement of hitherto inaccessible magnetic properties of individual 2D microsheets, the imaging of device-relevant phenomena such as domain wall dynamics and skyrmionics, and the systematic screening of newly synthesised materials. Anticipated outcomes include crucial new insights into 2D magnetism and the discovery of magnetic 2D materials compatible with real-world conditions. This should accelerate the development of future energy-efficient and flexible electronics and memory technologies, where magnetic 2D materials are expected to play a key role.
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