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Discovery Early Career Researcher Award - Grant ID: DE190101389
Funder
Australian Research Council
Funding Amount
$325,000.00
Summary
Imaging, analysing and forecasting Australian hazards with satellites. This project aims to improve Australia’s ability to anticipate geophysical hazards. It will generate a new national capability in the use of satellite radar imagery to monitor and manage geohazards, benefiting all communities. By producing high-resolution maps of ground displacements, the project will assess the controls upon where and why these events occur, and whether they exhibit precursory behaviour. This is the first st ....Imaging, analysing and forecasting Australian hazards with satellites. This project aims to improve Australia’s ability to anticipate geophysical hazards. It will generate a new national capability in the use of satellite radar imagery to monitor and manage geohazards, benefiting all communities. By producing high-resolution maps of ground displacements, the project will assess the controls upon where and why these events occur, and whether they exhibit precursory behaviour. This is the first step towards accurate hazard forecasting and in building Australia's capability for near-real-time geophysical hazard monitoring on a national scale. The outputs will impact upon future recommendations for national earthquake and landslide monitoring and deliver new tools to underpin regulation of resource extraction and inform construction codes.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100062
Funder
Australian Research Council
Funding Amount
$404,000.00
Summary
What's shaking down under? This project aims to determine the underlying cause of recent earthquake activity in central Australia. Of all the stable continents, Australia is surprisingly seismically active, with intra-plate earthquakes occurring relatively frequently. However, these are unpredictable, placing lives and infrastructure at risk. This project offers the opportunity to use a new seismic experiment to improve detection of small events that may warn of a more dangerous earthquake to co ....What's shaking down under? This project aims to determine the underlying cause of recent earthquake activity in central Australia. Of all the stable continents, Australia is surprisingly seismically active, with intra-plate earthquakes occurring relatively frequently. However, these are unpredictable, placing lives and infrastructure at risk. This project offers the opportunity to use a new seismic experiment to improve detection of small events that may warn of a more dangerous earthquake to come, and provide sub-surface imaging of the hidden crustal boundaries and faults that are ultimately responsible. Benefits will include improved hazard assessment, and a new predictive model for exploration that relates regional seismicity, crustal faults, and mineral systems.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180100040
Funder
Australian Research Council
Funding Amount
$337,300.00
Summary
Enabling next-generation earthquake and tsunami early warning. This project aims to develop a new approach for earthquake and tsunami early warning, avoiding many of the limitations currently present in such systems. The project will combine machine learning and artificial intelligence with state-of-the-art geophysical modelling, allowing high-quality real-time prediction of seismic hazards with full uncertainty information. Highlighting opportunities at the interface between geoscience and data ....Enabling next-generation earthquake and tsunami early warning. This project aims to develop a new approach for earthquake and tsunami early warning, avoiding many of the limitations currently present in such systems. The project will combine machine learning and artificial intelligence with state-of-the-art geophysical modelling, allowing high-quality real-time prediction of seismic hazards with full uncertainty information. Highlighting opportunities at the interface between geoscience and data science, the project will stimulate novel approaches, and build Australian research capacity in this area. Expected benefits include improved techniques for geophysical imaging and real-time data analysis, in addition to enhanced capabilities for mitigating the costs associated with seismic activity.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180101154
Funder
Australian Research Council
Funding Amount
$363,996.00
Summary
Regulating cumulative environmental effects: Designing global best practice. This project aims to analyse and evaluate laws regulating cumulative environmental effects in the United States of America, European Union, Canada and Australia. The project will use methods combining law, ethics, and natural and spatial science to develop a framework of globally relevant best practice tools for regulating cumulative effects. The outcomes will increase the capacity of regulators, industry, and the commu ....Regulating cumulative environmental effects: Designing global best practice. This project aims to analyse and evaluate laws regulating cumulative environmental effects in the United States of America, European Union, Canada and Australia. The project will use methods combining law, ethics, and natural and spatial science to develop a framework of globally relevant best practice tools for regulating cumulative effects. The outcomes will increase the capacity of regulators, industry, and the community to better manage common challenges in managing environmental effects and reducing environmental harms.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150100784
Funder
Australian Research Council
Funding Amount
$373,254.00
Summary
Molecular probe development for the oxytocin and vasopressin receptors. The oxytocin and vasopressin receptors are part of a 600 million year old signalling system that is widely distributed in the kingdom of life. It is involved in many fundamental physiological functions, however we still lack a complete toolbox of selective probes to delineate the individual receptor subtypes. This project aims to introduce a novel and innovative strategy that uses state-of-the art discovery techniques to ide ....Molecular probe development for the oxytocin and vasopressin receptors. The oxytocin and vasopressin receptors are part of a 600 million year old signalling system that is widely distributed in the kingdom of life. It is involved in many fundamental physiological functions, however we still lack a complete toolbox of selective probes to delineate the individual receptor subtypes. This project aims to introduce a novel and innovative strategy that uses state-of-the art discovery techniques to identify selective ligands in nature. Leads will be developed into molecular probes to facilitate in-depth studies of this system. This strategy is applicable to other systems and the outcomes will contribute to a significant advancement of knowledge in chemical biology.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120100694
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Effective systems for managing intractable natural resource use conflict. This project aims to understand the role of the law as an actor in disputes over the exploration and exploitation of natural resources. It will examine how patterns of conflict over natural resources develop, advancing knowledge of dispute resolution approaches that account for the influence of legal structures and dynamics upon conflict.
Discovery Early Career Researcher Award - Grant ID: DE200101361
Funder
Australian Research Council
Funding Amount
$403,866.00
Summary
The Australian tectonic stress state: Far-field forces and local impacts. This project aims to investigate the present-day tectonic stress field of Australia using detailed analysis of stress magnitude data and state-of-the-art 3D geomechanical-numerical modelling across spatial scales. Tectonic stresses control the Earth’s deformation and are a primary cause of collapse of subsurface structures. This project expects to improve our knowledge of the causes of the tectonic stress field of Australi ....The Australian tectonic stress state: Far-field forces and local impacts. This project aims to investigate the present-day tectonic stress field of Australia using detailed analysis of stress magnitude data and state-of-the-art 3D geomechanical-numerical modelling across spatial scales. Tectonic stresses control the Earth’s deformation and are a primary cause of collapse of subsurface structures. This project expects to improve our knowledge of the causes of the tectonic stress field of Australia and its consequences for earthquake risk assessment, safe and sustainable usage of underground environments for groundwater exploration and production, CO2 sequestration, waste disposal, mine stability, exploration and production of hydrocarbon and geothermal resources.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230100761
Funder
Australian Research Council
Funding Amount
$430,504.00
Summary
Identifying biases in news using models of narrative framing. This project aims to develop tools to detect biased narratives and one-sided framing in news stories using novel natural language processing methods to understand the text more deeply. Unlike existing methods, which overly rely on surface word co-occurrences patterns, the novel methods will be able to capture narratives in a more holistic and intuitive manner. Expected outcomes include new modeling techniques grounded in theory and a ....Identifying biases in news using models of narrative framing. This project aims to develop tools to detect biased narratives and one-sided framing in news stories using novel natural language processing methods to understand the text more deeply. Unlike existing methods, which overly rely on surface word co-occurrences patterns, the novel methods will be able to capture narratives in a more holistic and intuitive manner. Expected outcomes include new modeling techniques grounded in theory and a tool to highlight biases with recommendations for diverse sets of news articles. By raising awareness to biased news reporting, the project will benefit Australians through more balanced public discourse on global challenges, such as climate change and health pandemics.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200101293
Funder
Australian Research Council
Funding Amount
$426,717.00
Summary
Dynamic Fracturing and Energy Release Mechanisms in Heterogeneous Materials. The prediction of fracturing behaviour in geomaterials (i.e. rock, soil and concrete) under dynamic/impact loads is essential in dealing with a wide range of engineering problems including excavation and mining, blasting and fragmentation, earthquake engineering, impact cratering, and protective structure design However, current knowledge and modelling capabilities of these applications remains empirically based. This p ....Dynamic Fracturing and Energy Release Mechanisms in Heterogeneous Materials. The prediction of fracturing behaviour in geomaterials (i.e. rock, soil and concrete) under dynamic/impact loads is essential in dealing with a wide range of engineering problems including excavation and mining, blasting and fragmentation, earthquake engineering, impact cratering, and protective structure design However, current knowledge and modelling capabilities of these applications remains empirically based. This project aims to investigate fundamental issues governing the dynamic fracturing of geomaterials and apply this knowledge to advance the understanding and modelling capacity of dynamic fractures in geomaterials.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130100689
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Applying nature's chemistry to the synthesis of complex bioactive natural products. Organic molecules come in all shapes and sizes, and the synthesis of them is crucial to industries as diverse as pharmaceuticals, electronics, cosmetics and agrochemicals. This project aims to develop new ways of making unusual and potentially useful naturally occurring organic molecules using chemistry that mimics how they are formed in nature.