Platform technology to decode motor control through ultra high-field MRI. This project aims to advance our understanding of the poorly understood neural circuits that enable fine motor control in humans. To obtain this knowledge, new platform technology will be developed to capture the full kinematics of the hand during concurrent functional magnetic resonance imaging at ultra high-field. This device will allow testing of fundamental theories describing the canonical microcircuits involved in ha ....Platform technology to decode motor control through ultra high-field MRI. This project aims to advance our understanding of the poorly understood neural circuits that enable fine motor control in humans. To obtain this knowledge, new platform technology will be developed to capture the full kinematics of the hand during concurrent functional magnetic resonance imaging at ultra high-field. This device will allow testing of fundamental theories describing the canonical microcircuits involved in hand motion. Expected outcomes include new evidence of mirror neurons and observation of predictive error signals in the motor cortex. This new knowledge paves the way towards improved computer-brain interface technology which is likely to create benefits through translation to applications such as artificial limb control.Read moreRead less
Revealing how the human brain coordinates body movements for applications in health and technology. This project will extend the basic understanding about how the brain controls the movements of our bodies, and how it changes to allow us to adapt and refine our movements. This project will generate information that is critical for applications in the fields of health (e.g. rehabilitation) and technology (e.g. human-machine interfaces).
Brain mechanisms of learning in visually-guided movement. Each year 40,000 Australian suffer from stoke with many left with problems of limb function. In understanding and enhancing the conditions that promote motor adaptation, this research will make a significant contribution to the design of programs for rehabilitation of the upper limbs to enhance quality of life and reduced health care costs.