The Australian Research Data Commons (ARDC) invites you to participate in a short survey about your
interaction with the ARDC and use of our national research infrastructure and services. The survey will take
approximately 5 minutes and is anonymous. It’s open to anyone who uses our digital research infrastructure
services including Reasearch Link Australia.
We will use the information you provide to improve the national research infrastructure and services we
deliver and to report on user satisfaction to the Australian Government’s National Collaborative Research
Infrastructure Strategy (NCRIS) program.
Please take a few minutes to provide your input. The survey closes COB Friday 29 May 2026.
Complete the 5 min survey now by clicking on the link below.
Enhancing Language Learning in Ageing With Exercise. This project aims to determine if exercise improves language learning and consolidation in ageing. There is now compelling evidence for the benefits of exercise on cognition in older adults, however, it is unclear whether exercise improves age-related language problems. The project plans to examine exercise-induced changes in brain activity and biomarkers in an innovative set of studies that seeks to identify the brain mechanisms involved. The ....Enhancing Language Learning in Ageing With Exercise. This project aims to determine if exercise improves language learning and consolidation in ageing. There is now compelling evidence for the benefits of exercise on cognition in older adults, however, it is unclear whether exercise improves age-related language problems. The project plans to examine exercise-induced changes in brain activity and biomarkers in an innovative set of studies that seeks to identify the brain mechanisms involved. The findings are expected to contribute to theories of word learning and cognitive ageing and should advance our understanding of how exercise may be harnessed to optimise language and cognition. This would have practical applications in a range of populations with language and learning difficulties.Read moreRead less
The seeds of literacy in infancy: empirical specification of the acoustic determinants of language acquisition. Reading is one of the most difficult skills we learn, and while the process is largely forgotten by adults, any minor difficulty can have lasting effects. This project will follow speech, vocabulary and reading in infants at or not at risk for dyslexia from six months to five years with implications for parent-child interaction and language delay intervention.
Exploiting high resolution images of the retina to customise vision tests. This project will make vision tests more accurate and faster by using a person's individual eye anatomy to customise the test. The basic understandings discovered in this project are expected to be applied in clinical and research settings thus saving sight, dollars and time.
New, Efficient Tests That Map Both Central and Peripheral Vision. This project seeks to develop a new, combined approach for quantifying both central and peripheral vision with a single test. Current methods for testing far peripheral vision are not efficient and not fully automated. Yet peripheral vision is important for tasks involving navigation and hazard avoidance such as driving. The project intends to invent and test new approaches to sampling and measuring the spatial extent of vision. T ....New, Efficient Tests That Map Both Central and Peripheral Vision. This project seeks to develop a new, combined approach for quantifying both central and peripheral vision with a single test. Current methods for testing far peripheral vision are not efficient and not fully automated. Yet peripheral vision is important for tasks involving navigation and hazard avoidance such as driving. The project intends to invent and test new approaches to sampling and measuring the spatial extent of vision. The anticipated algorithms will be more accurate and efficient than current tests, will be suitable for older adults, and will enable ready assessment of vision for occupational tasks.Read moreRead less
From sound to hearing: the integration of behavioural, neurophysiological, and neuroimaging research with computational models. McLachlan and Wilson have recently published a ground-breaking new model of the auditory system with important implications for treating deafness and understanding neurological disorders. In this research the predictions of the model will be experimentally validated using advanced neuroimaging techniques.
Parallel and generative binding in human visual cortex. Imagine watching a group of children running around in brightly coloured T-shirts. How does your brain keep track of which colour goes with which T-shirt goes with which child? This project will use magnetic resonance imaging to identify where in our brains information about colour, shape and motion gets put together.
Discovery Early Career Researcher Award - Grant ID: DE220100783
Funder
Australian Research Council
Funding Amount
$409,781.00
Summary
Music and speech as a window into the predictive brain . Prediction is fundamental to daily life, and yet we know little about how this central process works in the brain. This research program aims to provide in-depth insight into predictive processing by investigating the precise, culturally relevant, and communicative domains of music and speech. The research expects to reveal cognitive and neural correlates of “what” will occur and “when” it will occur, while exploiting the musician brain as ....Music and speech as a window into the predictive brain . Prediction is fundamental to daily life, and yet we know little about how this central process works in the brain. This research program aims to provide in-depth insight into predictive processing by investigating the precise, culturally relevant, and communicative domains of music and speech. The research expects to reveal cognitive and neural correlates of “what” will occur and “when” it will occur, while exploiting the musician brain as a model for plasticity. Expected outcomes include a multi-dimensional model of prediction and its neural markers that will lay the foundation to investigate impaired predictive processing. This should substantially benefit health and education by providing perspectives for training and rehabilitation.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL160100108
Funder
Australian Research Council
Funding Amount
$2,409,738.00
Summary
How the brain creates a sense of auditory space. How the brain creates a sense of auditory space. Spatial hearing is necessary for locating the source of a sound, and critical for communication in noisy listening conditions. The object of this project is to determine how the mammalian brain, including in human listeners, represents sensitivity to interaural time differences, one of the two binaural cues, and how this representation is transformed from the brainstem to the cortex. Anticipated out ....How the brain creates a sense of auditory space. How the brain creates a sense of auditory space. Spatial hearing is necessary for locating the source of a sound, and critical for communication in noisy listening conditions. The object of this project is to determine how the mammalian brain, including in human listeners, represents sensitivity to interaural time differences, one of the two binaural cues, and how this representation is transformed from the brainstem to the cortex. Anticipated outcomes include a coherent model of binaural hearing that links cellular, systems and perceptual investigations, and an understanding of the human auditory brain that should facilitate novel technologies and interventions to improve hearing function.Read moreRead less
Wiring the retina for human vision - a single-cell behavioural approach. This project aims to combine optical and behavioural methods to explore how colour information is channelled from individual cone photoreceptors through the living human retina, to the brain. By non-invasively stimulating either a single cell or specific arrangements of cells, the project aims to contribute fundamental knowledge about how the retina is wired to inform our exquisite sense of colour and spatial vision. This u ....Wiring the retina for human vision - a single-cell behavioural approach. This project aims to combine optical and behavioural methods to explore how colour information is channelled from individual cone photoreceptors through the living human retina, to the brain. By non-invasively stimulating either a single cell or specific arrangements of cells, the project aims to contribute fundamental knowledge about how the retina is wired to inform our exquisite sense of colour and spatial vision. This understanding has consequences across a range of disciplines, including artificial vision systems such as driverless cars, retinal disease, and the processing of information through neuronal connections in general.Read moreRead less
Speech production in the developing brain. This project aims to study how children acquire language. Speech is arguably the most complicated action that humans can perform, yet is acquired with apparent ease in the pre-school years. The brain mechanisms of speech production have rarely been studied in children due to methodological and technical challenges. This project will address this gap using an articulographic setup for measuring speech movements concurrently with scanning of brain activit ....Speech production in the developing brain. This project aims to study how children acquire language. Speech is arguably the most complicated action that humans can perform, yet is acquired with apparent ease in the pre-school years. The brain mechanisms of speech production have rarely been studied in children due to methodological and technical challenges. This project will address this gap using an articulographic setup for measuring speech movements concurrently with scanning of brain activity in a customised paediatric brain imaging system. The results are expected to help explain why most children acquire speech easily and smoothly and why this process can be more difficult for others.Read moreRead less