Discovery Early Career Researcher Award - Grant ID: DE230100652
Funder
Australian Research Council
Funding Amount
$407,500.00
Summary
Toward data justice in Australian schools. This project will investigate the challenges raised by digital data for Australian schools. The use of digital technologies in schools has led to systematic data collection, which reconfigures schooling processes and interpersonal relationships and presents new risks to staff and students. Although there are laws in place to protect students' rights, there are hidden consequences to using digital technologies. This research project investigates how data ....Toward data justice in Australian schools. This project will investigate the challenges raised by digital data for Australian schools. The use of digital technologies in schools has led to systematic data collection, which reconfigures schooling processes and interpersonal relationships and presents new risks to staff and students. Although there are laws in place to protect students' rights, there are hidden consequences to using digital technologies. This research project investigates how data collection, use and disclosure is experienced and understood in schools. It will identify the role played by intermediaries, such as tech brokers, educational authorities and professional networks. Benefits include policy recommendations, protocols and guidelines for data justice in schools.Read moreRead less
New Generation of High-Performance Radio Frequency Devices . The strong demand for faster internet speed pushes high-speed technology to evolve faster. Designing and developing devices are now facing changes that are far more complex. We aim to tackle them, proposing to develop phase-change materials-based electronic systems. The outcomes will be reconfigurable devices with unprecedentedly increased operational frequency, reduced critical system-level metrics, and elimination of control circuits ....New Generation of High-Performance Radio Frequency Devices . The strong demand for faster internet speed pushes high-speed technology to evolve faster. Designing and developing devices are now facing changes that are far more complex. We aim to tackle them, proposing to develop phase-change materials-based electronic systems. The outcomes will be reconfigurable devices with unprecedentedly increased operational frequency, reduced critical system-level metrics, and elimination of control circuits. The successful results will address the Science and Research Priority of Modern Manufacturing and bring substantial socio-economic benefits to Australia by executing advancements of new technologies for modern wireless communications, leading to new high-tech opportunities, jobs, and economic growth.Read moreRead less
Formation Of An Industry Strategic Plan For Development Of A Quality Index For Australian Seafood
Funder
Fisheries Research and Development Corporation
Funding Amount
$4,585.00
Summary
Objectives: 1. To achieve broad agreement of key stakeholders on development of a strategic plan for establishing a quality index for selected Australian seafoods including benefits and costs. 2. To outline how to implement the first stage of this strategy including proposals for trials. 3. To assess infrastructure, resource and training requirements for implementation of the strategy.
Novel Mechanisms And Diagnostic Applications For Iron In Alzheimer’s Disease
Funder
National Health and Medical Research Council
Funding Amount
$599,644.00
Summary
My recent findings showed that measuring the iron content of the brain, by looking at the fluid surrounding the brain, was useful in predicting the chances of developing Alzheimer’s disease, and predicting the severity of this disease. Here, I will investigate this in more depth, and in new patient groups. The project has the potential to characterise a new way of predicting Alzheimer’s disease, and also will help inform how Alzheimer’s disease develops.
Genetic Mechanisms That Moderate Effects Of Aβ Accumulation In Preclinical Alzheimer's Disease
Funder
National Health and Medical Research Council
Funding Amount
$603,525.00
Summary
Alzheimer’s disease (AD) is the most common form of dementia, and the number of people living with it will triple by 2050. There is currently no cure for AD, and the only means of slow the growing epidemic is to delay onset. We propose to understand the complex interplay between genetic, cognitive, neuroimaging and biological markers of AD in order to better understand the disease process, and in turn identify high-risk individuals for clinical trials and uncover disease-modifying strategies.