Discovery Early Career Researcher Award - Grant ID: DE190101512
Funder
Australian Research Council
Funding Amount
$383,960.00
Summary
Inclusive community planning for people with disabilities in regional areas. This project aims to produce new knowledge to foster inclusion of people with disabilities in local community planning practice in regional areas. Exclusion of people with disabilities in local communities persists despite the national disability reform agenda. This project will place spatial justice thinking and critical disability theory within a community planning and development context to examine the concept as a s ....Inclusive community planning for people with disabilities in regional areas. This project aims to produce new knowledge to foster inclusion of people with disabilities in local community planning practice in regional areas. Exclusion of people with disabilities in local communities persists despite the national disability reform agenda. This project will place spatial justice thinking and critical disability theory within a community planning and development context to examine the concept as a scaled phenomenon. Using participatory research methods, the project will directly engage persons with disabilities and community planners in co-producing an adaptive model of practice. The project outcomes will help to create more inclusive, healthy, and resilient communities that enable people with disabilities to lead ordinary and fulfilling lives.Read moreRead less
Old brain cells perform new tricks to allow life-long learning. In the brain, nerve cells transmit electrical signals more quickly and reliably when they are insulated. The insulating cells undergo small adaptive changes that speed up information transfer during learning, and the faster the electrical signal, the better the learning outcomes. This project aims to understand the signals that direct insulating cells to adapt and support life-long learning. In the longer term, this knowledge may be ....Old brain cells perform new tricks to allow life-long learning. In the brain, nerve cells transmit electrical signals more quickly and reliably when they are insulated. The insulating cells undergo small adaptive changes that speed up information transfer during learning, and the faster the electrical signal, the better the learning outcomes. This project aims to understand the signals that direct insulating cells to adapt and support life-long learning. In the longer term, this knowledge may be used to: develop interventions that improve learning and educational outcomes; counteract age-related memory decline and enable longer work force participation; develop strategies to circumvent the memory loss caused by brain diseases, or improve the design of computer hardware.Read moreRead less