Policy Modelling for Ageing in Emerging Economies: The Case of Indonesia. This project, in collaboration with the World Bank and the Indonesian Planning Authority, will support major social and economic policy development in a rapidly ageing region. It will break new ground by developing a cutting-edge economic policy model reflecting salient features of ageing in emerging economies, taking into account the wider implications for education, employment, formalisation, growth, and retirement. It w ....Policy Modelling for Ageing in Emerging Economies: The Case of Indonesia. This project, in collaboration with the World Bank and the Indonesian Planning Authority, will support major social and economic policy development in a rapidly ageing region. It will break new ground by developing a cutting-edge economic policy model reflecting salient features of ageing in emerging economies, taking into account the wider implications for education, employment, formalisation, growth, and retirement. It will bring the armoury of policy analysis instruments available to these countries up to the standard now enjoyed by the developed world. Indonesia, on the brink of major pension reform, will be used as a test bed. Data sets will be developed to allow the model structure to be applied to other emerging economies in Asia. Read moreRead less
Embrittlement-tolerant alloys for safe hydrogen transmission and storage. Hydrogen embrittlement in steels is a major impediment to a safe hydrogen economy. This project will determine how hydrogen affects the deformation behaviour of steel, providing the fundamental information that is required to develop alloys that can be safely used in infrastructure for a future Australian hydrogen industry. We will utilise new technologies that allow us, for the first time, to determine the position of hyd ....Embrittlement-tolerant alloys for safe hydrogen transmission and storage. Hydrogen embrittlement in steels is a major impediment to a safe hydrogen economy. This project will determine how hydrogen affects the deformation behaviour of steel, providing the fundamental information that is required to develop alloys that can be safely used in infrastructure for a future Australian hydrogen industry. We will utilise new technologies that allow us, for the first time, to determine the position of hydrogen atoms around micro-scale features and to compare it to local mechanical behaviour, determined by micro-mechanical tests. The systematic investigation of the effect of hydrogen on different micro-components within steel will allow the development of microstructure-guided alloy design principles.Read moreRead less
Econometric methods for distributional policy effects. This project aims to develop new econometric methods that can measure distributional policy effects by accounting for heterogeneous policy impacts among observationally equivalent individuals. The project expects to develop quantile regression methods under a difference-in-differences framework that accommodates issues of censoring and sample selection. The outcomes of this project are expected to substantially broaden the scope of the stand ....Econometric methods for distributional policy effects. This project aims to develop new econometric methods that can measure distributional policy effects by accounting for heterogeneous policy impacts among observationally equivalent individuals. The project expects to develop quantile regression methods under a difference-in-differences framework that accommodates issues of censoring and sample selection. The outcomes of this project are expected to substantially broaden the scope of the standard mean difference-in-differences approach and have significant contributions to empirical studies in the future. The project intends to provide statistically valid inferential procedures and conduct simulation exercise and empirical studies relevant to policy evaluation for the benefit of Australia and other jurisdictions.Read moreRead less
Talent Mismatch: Evidence from Australian Administrative Tax Records. The project aims to study the skill composition of the Australian workforce. Changes in the macroeconomic and technology environments make it hard to predict skill shortage. The project expects to develop macroeconomic models quantifying skill-mismatch of university graduates, identify sources of mismatch, highlight gender and generational differences, and estimate associated costs to Australia. The expected outcomes are to he ....Talent Mismatch: Evidence from Australian Administrative Tax Records. The project aims to study the skill composition of the Australian workforce. Changes in the macroeconomic and technology environments make it hard to predict skill shortage. The project expects to develop macroeconomic models quantifying skill-mismatch of university graduates, identify sources of mismatch, highlight gender and generational differences, and estimate associated costs to Australia. The expected outcomes are to help shape policy recommendations on the funding of tertiary education in a changing economic climate. This should provide significant benefits to Australians, as policies shaping the tertiary education system affect individual income and the aggregate economy by determining labour supply and taxpayers' financial burden.Read moreRead less
Photoreversible hydrogels to study stem cell memory and fate. This project will develop materials whose stiffness can be reversibly increased and decreased by the simple application of light, and use these to build knowledge of how stem cell fate is regulated. The influence of mechanical cues on the structure and organisation of the nucleus will be determined. Expected outcomes are new synthetic and light-reversible culture materials, and fundamental insights into how forces change the nucleus t ....Photoreversible hydrogels to study stem cell memory and fate. This project will develop materials whose stiffness can be reversibly increased and decreased by the simple application of light, and use these to build knowledge of how stem cell fate is regulated. The influence of mechanical cues on the structure and organisation of the nucleus will be determined. Expected outcomes are new synthetic and light-reversible culture materials, and fundamental insights into how forces change the nucleus to alter stem cell aging and fate. The findings will provide critical information required for the future development of assays to measure cell potency and instructive biomaterials to drive stem cell expansion and tissue-regeneration and will have impact by underpinning future advances in stem cell technologies.Read moreRead less
A Biologically Responsive and Anatomically Authentic Human Nasal Model. As respiratory conditions caused by pollutants and viruses become more prevalent, human nasal models to study infection/protection mechanisms and nasal drug/vaccine delivery are increasingly important. This project aims to develop a world-first human nasal model to mimic both anatomical and biological aspects of the nasal cavity and predict the distribution and deposition of fine particles and the resultant biological respon ....A Biologically Responsive and Anatomically Authentic Human Nasal Model. As respiratory conditions caused by pollutants and viruses become more prevalent, human nasal models to study infection/protection mechanisms and nasal drug/vaccine delivery are increasingly important. This project aims to develop a world-first human nasal model to mimic both anatomical and biological aspects of the nasal cavity and predict the distribution and deposition of fine particles and the resultant biological response from the nasal mucosa. The aim is to overcome a key fabrication challenge - to 3D print an anatomically accurate nasal construct with a porous wall on which to grow and mature functional nasal tissue that lines a nasal cavity wall. The benefit would be enabling faster development of more targeted drugs and vaccines.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230100056
Funder
Australian Research Council
Funding Amount
$410,154.00
Summary
Accurate Fault Location Methods for Complex Power Networks. This project aims to devise novel algorithms to tackle one of the longstanding and challenging problems in power networks; finding the fault location in power lines. Recent bushfire preventive technologies that have been installed in power networks make the fault location process extremely challenging and time-consuming, leaving communities without power for many hours in extreme heatwave conditions.
The intended outcomes of the projec ....Accurate Fault Location Methods for Complex Power Networks. This project aims to devise novel algorithms to tackle one of the longstanding and challenging problems in power networks; finding the fault location in power lines. Recent bushfire preventive technologies that have been installed in power networks make the fault location process extremely challenging and time-consuming, leaving communities without power for many hours in extreme heatwave conditions.
The intended outcomes of the project are innovative algorithms that are able to pinpoint the fault location more accurately in complex networks, with many fewer measurement devices than conventional methods. This is expected to provide significant benefits for public safety and power supply reliability.Read moreRead less
Dual Stimulation Approach to Stem Cell Based Tissue Engineering. This Project aims to determine how human stem cells differentiate into different cell types in response to electrical and mechanical stimulation on a conductive biomaterial platform, and to use this knowledge to develop a custom built bioreactor. It expects to generate new insight into the mechanisms that control stem cell fate using innovative single cell measurements, and will deliver a bioreactor capable of using these mechanism ....Dual Stimulation Approach to Stem Cell Based Tissue Engineering. This Project aims to determine how human stem cells differentiate into different cell types in response to electrical and mechanical stimulation on a conductive biomaterial platform, and to use this knowledge to develop a custom built bioreactor. It expects to generate new insight into the mechanisms that control stem cell fate using innovative single cell measurements, and will deliver a bioreactor capable of using these mechanisms for large scale stem cell differentiation. The expected outcomes are a significant advancement in knowledge in the field of tissue engineering and more efficient methodology for patient-derived stem cell therapy. This will provide new pathways to improving stem cell therapy for tissue engineering applications.Read moreRead less
Adaptive nanofabrication of monolithic multifunctional sensing chips. This project aims to develop a new miniaturised graphene sensing platform integrating multiparameter sensing, wireless charging and data communication on a single chip to revolutionise the ubiquitous wireless sensing networks. By exploring the versatile laser nanofabrication, multiple devices can be inscribed into one flexible mini-chip for the first time. The chip can transform any objects into intelligent, multifunctional an ....Adaptive nanofabrication of monolithic multifunctional sensing chips. This project aims to develop a new miniaturised graphene sensing platform integrating multiparameter sensing, wireless charging and data communication on a single chip to revolutionise the ubiquitous wireless sensing networks. By exploring the versatile laser nanofabrication, multiple devices can be inscribed into one flexible mini-chip for the first time. The chip can transform any objects into intelligent, multifunctional and energy-efficient sensors and find enormous applications in advanced manufacturing, logistics, health monitoring, supply chain and security. It underpins almost every sector of our daily life, securing Australia’s internationally leading position in digitalisation and creating significant social and economic benefits.Read moreRead less
Variable Structure Complex Network Systems with Smart Grid Applications. This project aims to establish a breakthrough theory and technology to help deliver reliability and security of complex network systems, which are subject to structure changes, against faults and cyberattacks. Expected outcomes include a new theory that lays the foundation for understanding such systems, innovative algorithms and tools for their design, and a practical software platform used for ensuring reliability and sec ....Variable Structure Complex Network Systems with Smart Grid Applications. This project aims to establish a breakthrough theory and technology to help deliver reliability and security of complex network systems, which are subject to structure changes, against faults and cyberattacks. Expected outcomes include a new theory that lays the foundation for understanding such systems, innovative algorithms and tools for their design, and a practical software platform used for ensuring reliability and security of such systems. It will be applied directly to critical infrastructure such as the national power grid to help maintain lifeline resilience and achieve economic benefits. It will also provide an opportunity to train the next generation engineers in this cutting-edge technology for Australia.Read moreRead less