The structure and function of the human spinal connectome. This project will use complex network analysis to map the interactions between the brain and body, to understand how the central nervous system controls our movements. The project will provide fundamental insights into mechanisms that coordinate activity in the human motor system, and how the breakdown of coordination may lead to movement disorders. By integrating advanced computational analyses with state-of-the-art recording techniques ....The structure and function of the human spinal connectome. This project will use complex network analysis to map the interactions between the brain and body, to understand how the central nervous system controls our movements. The project will provide fundamental insights into mechanisms that coordinate activity in the human motor system, and how the breakdown of coordination may lead to movement disorders. By integrating advanced computational analyses with state-of-the-art recording techniques, the project will generate new knowledge of the neural basis of human motor coordination. Expected outcomes may support future applications to restore motor function through brain stimulation, prosthetics and robotics design.Read moreRead less
Investigating the effects and maximising the benefits of increased physical activity and reduced sedentary behaviour on wellbeing in youth. Lack of physical activity and the time that young people spend sedentary and alone staring into television and computer screens, are major public health issues. This project aims to explore how changes in physical activity and sedentary behaviour might influence health and wellbeing in young Australians. It will also involve the evaluation of an innovative s ....Investigating the effects and maximising the benefits of increased physical activity and reduced sedentary behaviour on wellbeing in youth. Lack of physical activity and the time that young people spend sedentary and alone staring into television and computer screens, are major public health issues. This project aims to explore how changes in physical activity and sedentary behaviour might influence health and wellbeing in young Australians. It will also involve the evaluation of an innovative school-based intervention targeting these outcomes. This project has the potential to bring physical and mental health benefits to current and future Australians.Read moreRead less
A new model of human speech production through computational modeling and human functional brain imaging. It is still largely a mystery how we convert our thoughts into fluent intelligible speech. This project will bring together experts in speech pathology, neuroscience, and computer modeling to create a new biologically-plausible model of speech production to advance understanding of speech development, ageing, and mechanisms of recovery after injury.