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
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0347784
Funder
Australian Research Council
Funding Amount
$130,000.00
Summary
MOVEMENT & COMMUNICATION ANALYSIS LAB & PORTABLE AUDIENCE RESPONSE FACILITY. The equipment establishes an integrated movement analysis laboratory and audience response facility to support and extend ongoing collaborative research projects that investigate human visual and auditory communication through gestures of voice and body. This laboratory will allow recording and analysis of fine and gross motor activity in: caregiver-infant and therapist-client interaction; auditory-visual speech percept ....MOVEMENT & COMMUNICATION ANALYSIS LAB & PORTABLE AUDIENCE RESPONSE FACILITY. The equipment establishes an integrated movement analysis laboratory and audience response facility to support and extend ongoing collaborative research projects that investigate human visual and auditory communication through gestures of voice and body. This laboratory will allow recording and analysis of fine and gross motor activity in: caregiver-infant and therapist-client interaction; auditory-visual speech perception; audience reactions to gesture and dance. The audience response facility, a portable system of small keypads programmed to record discrete and continuous responses, brings precision to recording psychological responses in a naturalistic setting. The combined equipment allows concerted investigation of human communicative gesture.Read moreRead less
Expecting the Unexpected: Learning Complex Temporal and Rhythmic Relations. Music is one of the most accessible routes to experience, and to learn about, cultures other than our own. A new implicit method for learning complex rhythm and underlying metre promotes inter-group understanding and communication. We hypothesize that implicit learning (IL) of unfamiliar complex metres through music generalizes to spoken language built on similar metres; IL facilitates segmentation of previously unfamili ....Expecting the Unexpected: Learning Complex Temporal and Rhythmic Relations. Music is one of the most accessible routes to experience, and to learn about, cultures other than our own. A new implicit method for learning complex rhythm and underlying metre promotes inter-group understanding and communication. We hypothesize that implicit learning (IL) of unfamiliar complex metres through music generalizes to spoken language built on similar metres; IL facilitates segmentation of previously unfamiliar spoken language and enhances recognition of English spoken with the stress pattern of a 'foreign' metre. Future intervention programs based on implicit learning of temporal relations will benefit people with reading difficulties or timing problems characteristic of cerebellar and basal ganglia patients.Read moreRead less
Identification and Examination of Visual Cues for Aircraft Glideslope Control. While aviation safety has improved dramatically over the last 50 years, accidents are still more common during landing than any other stage of flight. This project aims to improve our understanding of the way pilots use visual information to land an aircraft. Once our findings have been incorporated into existing training programs, this much-needed information should result in: (i) reduced pilot training time and cost ....Identification and Examination of Visual Cues for Aircraft Glideslope Control. While aviation safety has improved dramatically over the last 50 years, accidents are still more common during landing than any other stage of flight. This project aims to improve our understanding of the way pilots use visual information to land an aircraft. Once our findings have been incorporated into existing training programs, this much-needed information should result in: (i) reduced pilot training time and cost; (ii) increased trainee pilot safety and confidence; and (iii) reduced aircraft maintenance costs. A PhD student, who will be trained in visual perception and aviation, should contribute significantly to future aviation research in this country.Read moreRead less
Human time perception: A crossmodal investigation. This research program investigates time perception in humans in the subsecond range. Time perception is a crucial aspect of cognitive functioning but one that is poorly understood. The subsecond scale is particularly relevant because it is the time-frame for crucial tasks such as motor coordination, speech perception and crossmodal integration. This project examines time in an audiovisual context, exploring the cognitive limits of our ability to ....Human time perception: A crossmodal investigation. This research program investigates time perception in humans in the subsecond range. Time perception is a crucial aspect of cognitive functioning but one that is poorly understood. The subsecond scale is particularly relevant because it is the time-frame for crucial tasks such as motor coordination, speech perception and crossmodal integration. This project examines time in an audiovisual context, exploring the cognitive limits of our ability to keep track of time and testing whether time is encoded as a basic feature. These experiments will further our knowledge of time perception and lead to improved models of how the brain encodes time.Read moreRead less
Audio-visual interactions in human perception. How the brain integrates information from different sensory modalities to form coherent perceptions of the external environment is a challenging question in sensory and cognitive neuroscience. Neurophysiologically, sensory interactions have become well documented over the last decade or so. Complementary perceptual research, however, is lacking. This project seeks to redress the imbalance, using audio-visual interactions as a paradigm. Psychophysica ....Audio-visual interactions in human perception. How the brain integrates information from different sensory modalities to form coherent perceptions of the external environment is a challenging question in sensory and cognitive neuroscience. Neurophysiologically, sensory interactions have become well documented over the last decade or so. Complementary perceptual research, however, is lacking. This project seeks to redress the imbalance, using audio-visual interactions as a paradigm. Psychophysical experiments will explore: (i) audio-visual interactions in perception (sound enhancing vision, vision enhancing hearing); (ii) audio-visual interactions in spatial attention. Neurophysiological evidence, plus very recent psychophysical findings of audio-visual interactions, suggest this will be a rich vein of research.Read moreRead less
Visual Coding of Motion and Form. Understanding how brains solve the problems of vision may prove crucial in understanding how to build intelligent robots capable of seeing, as well as in developing more sophisticated virtual reality-type computer-based technologies. Moreover, given that a large proportion of our cortex is given over to visual processing, anything we can learn about the operation of the visual system might prove relevant to our understanding of cortical processing in general as ....Visual Coding of Motion and Form. Understanding how brains solve the problems of vision may prove crucial in understanding how to build intelligent robots capable of seeing, as well as in developing more sophisticated virtual reality-type computer-based technologies. Moreover, given that a large proportion of our cortex is given over to visual processing, anything we can learn about the operation of the visual system might prove relevant to our understanding of cortical processing in general as well as bringing us one step closer to an explanation of how activity in our brains gives rise to the experience of conscious perception. This project will directly expand Australia's knowledge-base regarding neural processing in general and visual perception in particular.Read moreRead less
An investigation of long-range stereopsis. Our project will be the first to examine long-range stereoscopic perceptions of depth, slant and curvature, as well as perceived changes in slant and curvature on the ground. The research is also theoretically significant and novel in exploring the scaling of stereopsis by monocular distance cues such as the ground plane, perspective and horizon. Determining the useful range of stereopsis also has many practical applications e.g. for understanding vehi ....An investigation of long-range stereopsis. Our project will be the first to examine long-range stereoscopic perceptions of depth, slant and curvature, as well as perceived changes in slant and curvature on the ground. The research is also theoretically significant and novel in exploring the scaling of stereopsis by monocular distance cues such as the ground plane, perspective and horizon. Determining the useful range of stereopsis also has many practical applications e.g. for understanding vehicle guidance (eg helicopter landing), as well as natural locomotion and route planning. The research is possible because of innovative equipment designed to allow for fast changes in remote targets.
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Stereoscopic Vision at Large Distances. This project measures the benefits of stereopsis, which is a perception of depth obtained from binocular vision, at distances of tens to hundreds of meters. Almost nothing is known of our stereoscopic abilities over this range and thus this is new and fundamental data about human vision. We will investigate how monocular and binocular information is combined at large distances; an issue relevant to sensor fusion, a central problem in neuroscience. The rese ....Stereoscopic Vision at Large Distances. This project measures the benefits of stereopsis, which is a perception of depth obtained from binocular vision, at distances of tens to hundreds of meters. Almost nothing is known of our stereoscopic abilities over this range and thus this is new and fundamental data about human vision. We will investigate how monocular and binocular information is combined at large distances; an issue relevant to sensor fusion, a central problem in neuroscience. The research is also critical for any tasks involving judgments over long distances including the recognition of distant targets and their relationships as well as the visual guidance of vehicles such as helicopters. It will also provide critical information to designers of binocular instruments.Read moreRead less