Discovery Early Career Researcher Award - Grant ID: DE180100649
Funder
Australian Research Council
Funding Amount
$363,996.00
Summary
Slow diffusion of information in asset pricing and risk management. This project aims to develop a unified investment and asset pricing theory for the slow diffusion of information in financial markets, such as momentum, reversal and post-earnings announcement drift. Expected outcomes of this project include the development of optimal methods to explore historical information, a systematic understanding of the impact of investor sentiment and heterogeneity on the speed of asset price response to ....Slow diffusion of information in asset pricing and risk management. This project aims to develop a unified investment and asset pricing theory for the slow diffusion of information in financial markets, such as momentum, reversal and post-earnings announcement drift. Expected outcomes of this project include the development of optimal methods to explore historical information, a systematic understanding of the impact of investor sentiment and heterogeneity on the speed of asset price response to news, and novel empirical hypotheses and tests that improve return predictability and reduce crash risks. The project will provide a potential competitive advantage and guidance to Australian investors, including superannuation fund managers, in competitive globalised financial markets.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230100451
Funder
Australian Research Council
Funding Amount
$435,232.00
Summary
Quantifying thermal environmental impact on office productivity. This project aims to quantify thermal environmental impacts on office productivity. It expects to firmly dismiss the prevailing misbelief that an indoor temperature of 22 °C leads to maximum workplace productivity, and create a paradigm shift in building management practice in commercial buildings. Expected outcomes of this project include a novel productivity metric, a standard measurement protocol for assessing thermal environmen ....Quantifying thermal environmental impact on office productivity. This project aims to quantify thermal environmental impacts on office productivity. It expects to firmly dismiss the prevailing misbelief that an indoor temperature of 22 °C leads to maximum workplace productivity, and create a paradigm shift in building management practice in commercial buildings. Expected outcomes of this project include a novel productivity metric, a standard measurement protocol for assessing thermal environmental impacts on office productivity, and world first indoor thermal environmental control guidelines tailored to diverse cognitive activities in the workplaces of different industries. This should provide cost-effective solutions to reduce building energy use while maintaining optimum workforce productivity.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230100171
Funder
Australian Research Council
Funding Amount
$438,560.00
Summary
Integrated models of learning and decision making in complex tasks. How do people learn to make decisions in complex work systems when assisted by automation? This project will develop computational models of human learning and decision making that explain and predict complex decisions relevant to industries such as aviation and defence. It will examine how humans learn to use automated advice, how learning affects remembering to perform planned (deferred) actions, and factors that pose a risk t ....Integrated models of learning and decision making in complex tasks. How do people learn to make decisions in complex work systems when assisted by automation? This project will develop computational models of human learning and decision making that explain and predict complex decisions relevant to industries such as aviation and defence. It will examine how humans learn to use automated advice, how learning affects remembering to perform planned (deferred) actions, and factors that pose a risk to learning and adaptation. The expected outcome is a significant theoretical advance in human factors and cognitive psychology, and a tool for informing work design (e.g., computer interface, task allocation) and training, with the potential to reduce human error in safety-critical workplaces.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150101347
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Characterising the hazard, structure and impacts of convective wind storms. This project aims to characterise probabilistically the severe convective wind storm risk (thunderstorm and tornado) to Australia under current and future climates. This will be achieved using a new coupled analysis-simulation based approach to wind hazard analysis. It will also characterise the complex wind structure within these wind storms by integrating three-dimensional data from novel high-resolution observation ne ....Characterising the hazard, structure and impacts of convective wind storms. This project aims to characterise probabilistically the severe convective wind storm risk (thunderstorm and tornado) to Australia under current and future climates. This will be achieved using a new coupled analysis-simulation based approach to wind hazard analysis. It will also characterise the complex wind structure within these wind storms by integrating three-dimensional data from novel high-resolution observation networks into a unifying wind field model. The project aims to generate the requisite information that allows convective wind storms to be explicitly accounted for in national and international wind-resistant design standards, thus acting to mitigate the devastating impacts of future events.Read moreRead less