How we recognise the orientation of objects: a combined neurophyschological / eye movement study. Neurophyschological evidence suggests that different visual attributes of objects (e.g. shape vs orientation in space) are processed by independent brain systems. This project aims to investigate this issue systematically, using both neurological patients and normal volunteers. By using sensitive experimental measures, including detailed analyses of subject's eye movements while they view objects, ....How we recognise the orientation of objects: a combined neurophyschological / eye movement study. Neurophyschological evidence suggests that different visual attributes of objects (e.g. shape vs orientation in space) are processed by independent brain systems. This project aims to investigate this issue systematically, using both neurological patients and normal volunteers. By using sensitive experimental measures, including detailed analyses of subject's eye movements while they view objects, this research will provide valuable insights into how the visual system gathers and encodes information about different object attributes.Read moreRead less
A new kind of dynamics for psychology. In order to remain efficient in real-world decisions, people must dynamically monitor and adjust their cognitive processes. This project aims to develop innovative methods and analyses for dynamics in experimental psychology, using standard paradigms in which task parameters are dynamically manipulated. The development of models of dynamic behaviour will advance the science of psychology and serve as a practical measurement tool for individuals.
The Australian naturalistic driving study: innovation in road safety research and policy. A revolutionary new approach, the naturalistic driving study, will investigate what people actually do when they drive, in normal and safety-critical situations. It will provide Australia with answers to some intractable, high priority, road safety problems that cannot be answered using current methods, thereby saving hundreds of lives.
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE130100050
Funder
Australian Research Council
Funding Amount
$570,000.00
Summary
Integrated facility for recording driver and road user behaviour. The integrated facility will be used to record and analyse data on driver and road user behaviour, in normal and safety-critical situations, for thousands of Australian drivers. The data yielded will be used to develop new and improved countermeasures for reducing road deaths and serious injuries on Australian roads.
Everyday autism: bridging the gap between lab and life. Recent research demonstrates that autistic people, their families and professionals often feel that there remains a sharp divide between autism science and key aspects of everyday autistic life, despite significant public investment in that science. This proposed research investigates reasons for this divide and proposes ways in which it might be overcome. Expected outcomes include greater opportunities for autistic people to play active ro ....Everyday autism: bridging the gap between lab and life. Recent research demonstrates that autistic people, their families and professionals often feel that there remains a sharp divide between autism science and key aspects of everyday autistic life, despite significant public investment in that science. This proposed research investigates reasons for this divide and proposes ways in which it might be overcome. Expected outcomes include greater opportunities for autistic people to play active roles in the research process and more scientific experimentation that moves out of the laboratory and into more true-to-life settings. Bridging the gap between lab and life will result in better theory-building on autism, better translation of scientific discoveries and more robust policy recommendations.Read moreRead less
The Development of Speed Skill. The power function has been the unquestioned law linking practice to human response time for 30 years and is the basis for all current theories of human skill acquisition. Our recent work has overturned the power law in favour of an exponential law. This project uses a combination of computer simulation and experimentation with both adults and children to determine the generality of the exponential law and to develop theory that can accommodate it. Developmental ....The Development of Speed Skill. The power function has been the unquestioned law linking practice to human response time for 30 years and is the basis for all current theories of human skill acquisition. Our recent work has overturned the power law in favour of an exponential law. This project uses a combination of computer simulation and experimentation with both adults and children to determine the generality of the exponential law and to develop theory that can accommodate it. Developmental and practice effects will be compared in four fundamental cognitive tasks and new estimation methodologies tested, resulting in quantifiable improvements in education and training practices.Read moreRead less
Towards an integrated model of reasoning and reasoning development. This project aims to identify the core cognitive processes that underlie different forms of reasoning and how they develop. The project intends to use a signal detection framework to derive detailed computational models of reasoning which can then be tested through Bayesian computational modelling as well as the first systematic investigation of developmental change in reasoning processes. Expected outcomes include a more princi ....Towards an integrated model of reasoning and reasoning development. This project aims to identify the core cognitive processes that underlie different forms of reasoning and how they develop. The project intends to use a signal detection framework to derive detailed computational models of reasoning which can then be tested through Bayesian computational modelling as well as the first systematic investigation of developmental change in reasoning processes. Expected outcomes include a more principled and comprehensive computational model of reasoning in both adults and children. The project should provide significant benefits by helping to resolve long-standing debates about how humans reason complex arguments relevant to everyday lives and guide development of more effective methods for teaching reasoning.Read moreRead less
Testing posterior parietal cortex contributions to human episodic memory. This project aims to determine the involvement of parietal brain regions for episodic memory. Using novel experimental tasks and multimodal neuroimaging techniques in young and healthy aging, this project expects to clarify the role of posterior parietal structures, and their interactions with core memory structures, during memory retrieval. Expected outcomes include advanced understanding of how we remember the past in ri ....Testing posterior parietal cortex contributions to human episodic memory. This project aims to determine the involvement of parietal brain regions for episodic memory. Using novel experimental tasks and multimodal neuroimaging techniques in young and healthy aging, this project expects to clarify the role of posterior parietal structures, and their interactions with core memory structures, during memory retrieval. Expected outcomes include advanced understanding of how we remember the past in rich contextual detail, and how such processes are altered in healthy aging. This potentially provides significant benefits in predicting and treating memory dysfunction due to brain injury or neurodegeneration.Read moreRead less
Human hippocampus subregions organisation and associative memory processes. This proposal will investigate the hippocampus, a highly inter-connected structure containing many subregions. Although considered the memory centre of the brain, we still do not know the exact roles of these subregions during memory processes. Using novel brain neuroimaging acquisition methods and analyses, this project aims to map the internal structure and functions of the hippocampus and its functional networks under ....Human hippocampus subregions organisation and associative memory processes. This proposal will investigate the hippocampus, a highly inter-connected structure containing many subregions. Although considered the memory centre of the brain, we still do not know the exact roles of these subregions during memory processes. Using novel brain neuroimaging acquisition methods and analyses, this project aims to map the internal structure and functions of the hippocampus and its functional networks under different memory conditions and how these functions change with age. The intended outcome of this proposal is to provide the foundations for the first integrated model of human memory and its biological basis and to generate a benchmark against which future development of memory interventions and retraining can be measured.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160101275
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Contribution of basal ganglia networks to the fine-tuning of action. This project aims to identify the changes occurring in specific brain circuits when new behaviours are learned. Our ability to perform efficient goal-directed actions involves a learning process in which separate movements are organised into sequences of action. This project aims to determine how this is encoded in the brain by mapping basal ganglia networks that are directly engaged during different stages of learning. This pr ....Contribution of basal ganglia networks to the fine-tuning of action. This project aims to identify the changes occurring in specific brain circuits when new behaviours are learned. Our ability to perform efficient goal-directed actions involves a learning process in which separate movements are organised into sequences of action. This project aims to determine how this is encoded in the brain by mapping basal ganglia networks that are directly engaged during different stages of learning. This project also seeks to identify specific neural circuits that are important for the refinement of action. The knowledge developed in this project is expected to support the development of training programs to instruct individuals in specialised tasks and may be used in the design of biologically inspired robots.Read moreRead less