Improving young drivers' speed management behaviour. This project incorporates proven educational and training techniques employed within the aviation industry to improve young drivers' speed management skills. Ultimately the results of this project will aid road safety authorities in redesigning training programmes to achieve this goal.
Discovery Early Career Researcher Award - Grant ID: DE140100750
Funder
Australian Research Council
Funding Amount
$395,106.00
Summary
Associative learning and fluid intelligence: Computational and neurogenetic analyses. This project investigates genetic contributions to associative learning, one of our most fundamental abilities. Associative learning allows us to navigate in our environment, predict future events and make appropriate decisions. Electrophysiological measures will be used to study learning processes precisely and to investigate their relationship to polymorphisms in genes that regulate neural function. This rese ....Associative learning and fluid intelligence: Computational and neurogenetic analyses. This project investigates genetic contributions to associative learning, one of our most fundamental abilities. Associative learning allows us to navigate in our environment, predict future events and make appropriate decisions. Electrophysiological measures will be used to study learning processes precisely and to investigate their relationship to polymorphisms in genes that regulate neural function. This research will further understanding of the mechanisms that generate individual differences in learning ability and will have applications for educational techniques and behavioural interventions.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.
Tracking reading comprehension: What experts reveal about the mind. This project plans to use expert readers to provide a window on what defines optimal reading. Reading is a complex skill that requires precise coordination of cognition, perception and attention. By measuring skilled readers’ eye movements while they read sentences and short passages, the experiments are designed to investigate how individual differences in reading, spelling and vocabulary influence the timing and coordination o ....Tracking reading comprehension: What experts reveal about the mind. This project plans to use expert readers to provide a window on what defines optimal reading. Reading is a complex skill that requires precise coordination of cognition, perception and attention. By measuring skilled readers’ eye movements while they read sentences and short passages, the experiments are designed to investigate how individual differences in reading, spelling and vocabulary influence the timing and coordination of word identification and comprehension processes during normal reading and how this changes with a readers' goals. The results would distinguish between competing theories of how skilled readers balance word identification and comprehension processes, an issue that is critical to current debates about how reading should be taught.Read moreRead less
Cracking the code for skilled reading: the role of lexical quality in word and sentence reading. This project tests the hypothesis that highly skilled reading depends on precisely specified stored knowledge about written words. This project will investigate how individual diffences in reading, spelling and vocabulary among expert readers influence the time course of early orthographic and semantic processes in word identification and the pattern of lecical and contextual influences on eye moveme ....Cracking the code for skilled reading: the role of lexical quality in word and sentence reading. This project tests the hypothesis that highly skilled reading depends on precisely specified stored knowledge about written words. This project will investigate how individual diffences in reading, spelling and vocabulary among expert readers influence the time course of early orthographic and semantic processes in word identification and the pattern of lecical and contextual influences on eye movements during sentence reading.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180100893
Funder
Australian Research Council
Funding Amount
$366,403.00
Summary
No pain no word gain: toward a new neurobiological account of word learning. This project aims to generate a novel neurobiological account of word learning, going beyond a simple mapping between words and objects and recognising the sensory and socio-communicative embedding of language. Capitalising on interdisciplinary approaches to research, this project will use state-of-the-art neuroimaging to reveal the neural architecture and mechanisms supporting contextualised sensory word learning. The ....No pain no word gain: toward a new neurobiological account of word learning. This project aims to generate a novel neurobiological account of word learning, going beyond a simple mapping between words and objects and recognising the sensory and socio-communicative embedding of language. Capitalising on interdisciplinary approaches to research, this project will use state-of-the-art neuroimaging to reveal the neural architecture and mechanisms supporting contextualised sensory word learning. The results are expected to bring about a paradigm shift in the fields of neurobiology of language and learning, having a profound impact on the practice of language teaching and improvement of language functioning.Read moreRead less