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
High Quality Gallium Oxide for Power Electronics. This project aims to combine advanced nanocharacterisation techniques with complementary expertise in semiconductor growth to produce high-quality gallium oxide that will enable fabrication of high efficiency, cost-effective power electronics. These state-of-the-art devices are urgently required to significantly reduce power conversion losses to maximise the performance and benefits of electricity generation systems using renewable energy sources ....High Quality Gallium Oxide for Power Electronics. This project aims to combine advanced nanocharacterisation techniques with complementary expertise in semiconductor growth to produce high-quality gallium oxide that will enable fabrication of high efficiency, cost-effective power electronics. These state-of-the-art devices are urgently required to significantly reduce power conversion losses to maximise the performance and benefits of electricity generation systems using renewable energy sources. The availability of superior oxide materials with bespoke electrical properties will enable the construction of fast high-voltage electronic switches, converters and other components with enhanced performance and unique capabilities.Read moreRead less
Mapping networks governing cell state plasticity: how, where and when? Single cell organisms are the basic unit of life, yet, if they had not developed the ability to change cell states we would not exist today. Changing cell states lies at the core of almost every developmental and disease process in multicellular organisms. Building upon our fundamental discovery that stem cells and non-stem cells readily interconvert, we will now incorporate innovative cell systems and the development of our ....Mapping networks governing cell state plasticity: how, where and when? Single cell organisms are the basic unit of life, yet, if they had not developed the ability to change cell states we would not exist today. Changing cell states lies at the core of almost every developmental and disease process in multicellular organisms. Building upon our fundamental discovery that stem cells and non-stem cells readily interconvert, we will now incorporate innovative cell systems and the development of our new multi-layered systems biology strategy to elucidate the first comprehensive understanding of the cell biology that underlies cell state changes. These studies are a major step toward understanding the fundamentals of life. 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.
Investigating the impact of augmented reality on consumer decision making and marketing systems. The marketing environment is changing rapidly, with mobile digital devices providing consumers the ability to augment their physical reality with virtual representations. This project investigates how consumers make choices, how manufacturers design successful business practices and how regulators proscribe manipulative behaviour in these environments.
Discovery Early Career Researcher Award - Grant ID: DE150100791
Funder
Australian Research Council
Funding Amount
$373,536.00
Summary
Identification of optically efficient erbium centres in silicon. An efficient and economical light source, an essential component for silicon integrated photonics, is still missing. This project aims to identify optically efficient erbium centres in silicon materials that are compatible with the cost-effective silicon integration technology. This project also aims to advance the microscopic study of erbium in silicon to a single-atom level and establish the essential link for optimising light em ....Identification of optically efficient erbium centres in silicon. An efficient and economical light source, an essential component for silicon integrated photonics, is still missing. This project aims to identify optically efficient erbium centres in silicon materials that are compatible with the cost-effective silicon integration technology. This project also aims to advance the microscopic study of erbium in silicon to a single-atom level and establish the essential link for optimising light emission between the microscopic structure and the optical transition. The expected outcomes are optically efficient erbium centres in silicon, which will speed up the material optimisation process and advance the development of silicon integrated photonics in Australia.Read moreRead less
A molecular timer for inflammation and cell death. This project aims to improve our understanding of the timely function of the immune system. Most processes fundamental to life rely on the timely execution of cellular functions. One biological system in which timing is paramount is the immune system. Organismal health relies upon this front-line defence system for rapidly detecting invading microbes and inducing an appropriate, and timely, antimicrobial response to clear infection. We do not cu ....A molecular timer for inflammation and cell death. This project aims to improve our understanding of the timely function of the immune system. Most processes fundamental to life rely on the timely execution of cellular functions. One biological system in which timing is paramount is the immune system. Organismal health relies upon this front-line defence system for rapidly detecting invading microbes and inducing an appropriate, and timely, antimicrobial response to clear infection. We do not currently understand how immune responses are temporally coordinated. This proposal aims to address this key knowledge gap by characterising a novel molecular timer that dictates the co-ordinated timing of immune responses and immune cell death. These studies may yield fundamental insight into mammalian anti-microbial mechanisms.Read moreRead less
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
The control of chromosome division during female meiosis. Mammalian eggs are stored life-long and finally mature in the hours before ovulation. This project examines how the chromosomes in the egg are separated properly so as to produce a mature egg capable of being fertilized by a sperm. Often in eggs chromosome division is imprecisely executed, and this project will help us understand why this occurs.
Imaging the foundation of the nervous system. This Project aims to understand the formation of the neural tube; a fundamental tissue structure that generates the brain and the spinal cord. Using interdisciplinary approaches and exploiting recent advances in transgenic and imaging technologies, the Project expects to reveal the complex interplay of molecular, cellular and mechanical processes that direct neural tissue formation and cell fate specification. Outcomes from the Project include knowle ....Imaging the foundation of the nervous system. This Project aims to understand the formation of the neural tube; a fundamental tissue structure that generates the brain and the spinal cord. Using interdisciplinary approaches and exploiting recent advances in transgenic and imaging technologies, the Project expects to reveal the complex interplay of molecular, cellular and mechanical processes that direct neural tissue formation and cell fate specification. Outcomes from the Project include knowledge of previously intractable developmental processes, training of future scientists and development of international collaborations. This should provide enhanced imaging capacity, a higher quality scientific workforce and position Australia at the forefront of developmental biology.
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