Position perception, attention, object motion, and action. The research will achieve a deeper understanding of the neural processing of the visual perception of position, and of the associated behavioural limits. This will provide a foundation for the development of a range of technologies to assist disabled and elderly people. The results will help reveal the link between the perception of moving objects and the capacity for visually guided movement. This link will benefit areas such as enginee ....Position perception, attention, object motion, and action. The research will achieve a deeper understanding of the neural processing of the visual perception of position, and of the associated behavioural limits. This will provide a foundation for the development of a range of technologies to assist disabled and elderly people. The results will help reveal the link between the perception of moving objects and the capacity for visually guided movement. This link will benefit areas such as engineering of vehicles and road systems, and the design of telepresence systems. The first applications are likely to be in the rehabilitation of brain injury and the decline of mental function with age.Read moreRead less
Sensory Coding Mechanisms in Rat Somatosensory System; A Combined Behavioural and Electrophysiological Approach. This inter-disciplinary project spans behavioural sciences, neurophysiology and computational neuroscience. It investigates fundamental questions such as how different aspects of stimuli are presented in sensory areas of the brain and how the animal interprets the neuronal activity in such areas to generate the relevant behaviour. A major problem with making prosthetic sensory devices ....Sensory Coding Mechanisms in Rat Somatosensory System; A Combined Behavioural and Electrophysiological Approach. This inter-disciplinary project spans behavioural sciences, neurophysiology and computational neuroscience. It investigates fundamental questions such as how different aspects of stimuli are presented in sensory areas of the brain and how the animal interprets the neuronal activity in such areas to generate the relevant behaviour. A major problem with making prosthetic sensory devices is the way by which these devices can communicate with the brain. Research into the coding of different features of simple stimuli will provide basic knowledge which can be implemented in prosthetic sensory devices. Read moreRead less
The advantage of being magnocellular: the role of the dorsal visual stream in object identification. The primary benefit of this project is to basic science and tertiary teaching globally. Visual processing and how it activates attention and operates to guide actions and cognitive behaviour is fundamental to our understanding of life and brain evolution. In particular this new knowledge will further understanding of many cognitive symptoms associated with neurodevelopmental disorders and in the ....The advantage of being magnocellular: the role of the dorsal visual stream in object identification. The primary benefit of this project is to basic science and tertiary teaching globally. Visual processing and how it activates attention and operates to guide actions and cognitive behaviour is fundamental to our understanding of life and brain evolution. In particular this new knowledge will further understanding of many cognitive symptoms associated with neurodevelopmental disorders and in the future should lead to design of better educational technologies for such children. Similarly understanding of temporal sequencing of vision has commercial implications for design of bionic eyes and robotic vision processing.Read moreRead less
Brain mechanisms for coordinating with others through sound. Distinguishing between sounds produced by self and others is critical for interpersonal coordination and communication through speech and music. This project employs a novel dual-brain electrophysiological technique with tagged audio signals to elucidate how the human brain achieves this distinction, and when and why it cannot. Expected outcomes include new knowledge on the neurophysiological mechanisms that support self-other processi ....Brain mechanisms for coordinating with others through sound. Distinguishing between sounds produced by self and others is critical for interpersonal coordination and communication through speech and music. This project employs a novel dual-brain electrophysiological technique with tagged audio signals to elucidate how the human brain achieves this distinction, and when and why it cannot. Expected outcomes include new knowledge on the neurophysiological mechanisms that support self-other processing, and the acoustic conditions and behavioural strategies that facilitate their operation. These outcomes should ultimately have applied benefits for improving interpersonal coordination and social interaction, especially in digital environments and clinical populations with atypical self-other processing.Read moreRead less
Imaging supra- versus sub-threshold perception: Towards a neural 'signature' of conscious experience. This is the first study to combine spatial and temporal brain measures to test the prediction that 'conscious' (versus 'unconscious') emotion perception is distinguished by responses in cortical brain regions, and by later peaks in integrative brain activity. Two additional innovative features include the simultaneous measurement of arousal (as an independent index of responses to emotion, regar ....Imaging supra- versus sub-threshold perception: Towards a neural 'signature' of conscious experience. This is the first study to combine spatial and temporal brain measures to test the prediction that 'conscious' (versus 'unconscious') emotion perception is distinguished by responses in cortical brain regions, and by later peaks in integrative brain activity. Two additional innovative features include the simultaneous measurement of arousal (as an independent index of responses to emotion, regardless of conscious awareness), and the use of psychophysical methods to establish objective thresholds for 'unconscious' and 'conscious' perception. Elucidating the neural basis of conscious emotion perception is important to understanding the mechanisms of unique human experience, and disorders of stress and anxiety.Read moreRead less
Presynaptic mechanisms of general anaesthesia in the fly brain. General anaesthesia is a routine procedure for both human and veterinary surgery and for any experimental paradigms requiring immobilization of animals. By abolishing consciousness, these drugs provide practitioners with an ideal way of manipulating subjects under conditions when responsiveness might be undesirable. Understanding how manipulating synaptic release mechanisms might modulate anaesthetic potency will be valuable for eve ....Presynaptic mechanisms of general anaesthesia in the fly brain. General anaesthesia is a routine procedure for both human and veterinary surgery and for any experimental paradigms requiring immobilization of animals. By abolishing consciousness, these drugs provide practitioners with an ideal way of manipulating subjects under conditions when responsiveness might be undesirable. Understanding how manipulating synaptic release mechanisms might modulate anaesthetic potency will be valuable for eventually being able to better control the anaesthetized state in human and animal subjects. By understanding general anaesthesia across multiple levels of brain function, we will at the same time be answering fundamental questions pertaining to mechanisms of perception and awareness. Read moreRead less
How does electrical stimulation affect brain networks? This project aims to generate fundamental knowledge about links between neural mechanisms, electrical brain stimulation and brain function. The project aims to improve knowledge about transcranial direct current stimulation (tDCS) and its effects on complex human brain networks. Such knowledge is necessary to enhance the effectiveness of current stimulation protocols. Using the innovative and interdisciplinary approach, this project will pr ....How does electrical stimulation affect brain networks? This project aims to generate fundamental knowledge about links between neural mechanisms, electrical brain stimulation and brain function. The project aims to improve knowledge about transcranial direct current stimulation (tDCS) and its effects on complex human brain networks. Such knowledge is necessary to enhance the effectiveness of current stimulation protocols. Using the innovative and interdisciplinary approach, this project will provide significant benefits such as crucial mechanistic information about how tDCS modulates healthy brain function which has broad implications for research and clinical use of this technique.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160101064
Funder
Australian Research Council
Funding Amount
$373,536.00
Summary
How musical rhythms entrain the human brain. This project is designed to investigate the brain mechanisms that allow humans to feel the beat in musical rhythms. Although such activity facilitates pro-social and therapeutic effects, the underlying brain mechanisms remain unknown. The project intends to examine the interface between musical rhythms, behaviour and brain activity to increase knowledge on a fundamental process of brain function: the dynamic coupling between perception and body moveme ....How musical rhythms entrain the human brain. This project is designed to investigate the brain mechanisms that allow humans to feel the beat in musical rhythms. Although such activity facilitates pro-social and therapeutic effects, the underlying brain mechanisms remain unknown. The project intends to examine the interface between musical rhythms, behaviour and brain activity to increase knowledge on a fundamental process of brain function: the dynamic coupling between perception and body movement. The project aims to provide insight into how psychological, environmental and neural mechanisms affect entrainment to rhythmic events and inform practices for education and clinical rehabilitation.Read moreRead less
Psychological and neurophysiological mechanisms underlying human interaction in musical contexts. Human interaction in musical groups is a culturally widespread activity that showcases the remarkable capacity for precision and creativity in interpersonal coordination. Although such activity has beneficial effects, including the facilitation of prosociality and positive therapeutic outcomes, the psychological and neurophysiological mechanisms that underpin an individual’s ability to coordinate wi ....Psychological and neurophysiological mechanisms underlying human interaction in musical contexts. Human interaction in musical groups is a culturally widespread activity that showcases the remarkable capacity for precision and creativity in interpersonal coordination. Although such activity has beneficial effects, including the facilitation of prosociality and positive therapeutic outcomes, the psychological and neurophysiological mechanisms that underpin an individual’s ability to coordinate with others remain poorly understood. This project aims to investigate these mechanisms by examining relationships between behaviour, social factors, and brain structure and function in naturalistic and laboratory settings. This will inform the assessment and treatment of clinical conditions that affect movement timing and social interaction.Read moreRead less
The role of the Supplementary Motor Area in time processing. The neural bases of timing mechanisms (0.1-100s range) are the subject of much debate. We hypothesise that the Supplementary Motor Area (SMA), a major cortical structure involving important dopaminergic pathways, subtends duration encoding, in the way depicted by the 'accumulator model'. Using transcranial magnetic stimulation (TMS) over the SMA, we will test healthy subjects in motor and perceptual timing tasks, compared to Parkinson' ....The role of the Supplementary Motor Area in time processing. The neural bases of timing mechanisms (0.1-100s range) are the subject of much debate. We hypothesise that the Supplementary Motor Area (SMA), a major cortical structure involving important dopaminergic pathways, subtends duration encoding, in the way depicted by the 'accumulator model'. Using transcranial magnetic stimulation (TMS) over the SMA, we will test healthy subjects in motor and perceptual timing tasks, compared to Parkinson's disease patients whose timing performance is impaired due to dopaminergic dysfunction. We expect TMS inhibitory effects to induce predictable performance trends, providing support for the accumulator model and the key role of the SMA in timing.Read moreRead less