Face-space: linking three-dimensional shape and human perception across changing viewing conditions. People, and increasingly machines, use faces to identify and interact with people. One source of information available for this is the three-dimensional (3D) shape of the face. This information, unlike a photograph, does not change with lighting and viewpoint. This project will link measurements of face shape to the perceived similarities and differences between faces we use to make decisions. ....Face-space: linking three-dimensional shape and human perception across changing viewing conditions. People, and increasingly machines, use faces to identify and interact with people. One source of information available for this is the three-dimensional (3D) shape of the face. This information, unlike a photograph, does not change with lighting and viewpoint. This project will link measurements of face shape to the perceived similarities and differences between faces we use to make decisions. This will facilitate the use of 3D databases in diverse applications including establishing identity, making facial reconstructions of victims of crime or disaster, making databases searchable, computer animation, archaeology, and plastic surgery. In particular the work will make physical databases relevant to human perception. Read moreRead less
The development of causal induction. An ability to reason inductively is an essential prerequisite for effective learning and decision-making. Inductive thinking is also closely related to creativity and innovation. By acquiring a better understanding of how such reasoning develops we will contribute to the enhancement of techniques that help children to learn and refine inductive reasoning skills, and will provide a foundation for the development of programs to assist children who have partic ....The development of causal induction. An ability to reason inductively is an essential prerequisite for effective learning and decision-making. Inductive thinking is also closely related to creativity and innovation. By acquiring a better understanding of how such reasoning develops we will contribute to the enhancement of techniques that help children to learn and refine inductive reasoning skills, and will provide a foundation for the development of programs to assist children who have particular problems in inductive reasoning and generalisation (i.e. those with autism or an intellectual disability).Read moreRead less
Solving the passport problem: re-designing photo-ID to improve recognition. We aim to contribute to national security and crime prevention by increasing the accuracy with which security staff can check the validity of photo-ID documents such as passports. Research shows that it is surprisingly difficult to determine if the image on a photo-ID document is of the bearer, and as a result it is likely that fraudulent use of photo-ID documents sometimes goes undetected. Our novel approach is to use ....Solving the passport problem: re-designing photo-ID to improve recognition. We aim to contribute to national security and crime prevention by increasing the accuracy with which security staff can check the validity of photo-ID documents such as passports. Research shows that it is surprisingly difficult to determine if the image on a photo-ID document is of the bearer, and as a result it is likely that fraudulent use of photo-ID documents sometimes goes undetected. Our novel approach is to use our knowledge of unfamiliar face perception to develop new image formats for photo-ID documents which increase the accuracy with which security staff can detect identity fraud.Read moreRead less
Concept-procedure interactions in addition and subtraction development. The research explores the possibility of different pathways to mathematical knowledge by examining how key concepts and procedures interact in the course of development. Studies 1 and 2 address early addition and subtraction concepts and problem solving in the physical world, Studies 3 - 6 focus on the effects of problem-solving practice and concept-based training and Studies 7 and 8 address children's knowledge of conceptu ....Concept-procedure interactions in addition and subtraction development. The research explores the possibility of different pathways to mathematical knowledge by examining how key concepts and procedures interact in the course of development. Studies 1 and 2 address early addition and subtraction concepts and problem solving in the physical world, Studies 3 - 6 focus on the effects of problem-solving practice and concept-based training and Studies 7 and 8 address children's knowledge of conceptually advanced problem-solving procedures. The results are expected to show that addition and subtraction concepts and procedures influence each other in different ways among children, signifying different pathways of cognitive development.Read moreRead less
Thinking about the future: The nature and development of mental time travel. This project is one of the first systematic investigations into the development of the human capacity to consider future events. A variety of novel tasks will probe what children know about the future and how it relates to their ability to reason about past events. Comparisons between children and apes will further inform us about the nature of this crucial mental skill. The findings will provide valuable information fo ....Thinking about the future: The nature and development of mental time travel. This project is one of the first systematic investigations into the development of the human capacity to consider future events. A variety of novel tasks will probe what children know about the future and how it relates to their ability to reason about past events. Comparisons between children and apes will further inform us about the nature of this crucial mental skill. The findings will provide valuable information for developing appropriate educational approaches and for our understanding of abnormalities. As international leaders in this field, we are in an ideal position to conduct this research, offer unique opportunities for postgraduate training, and to continue in Australia's outstanding tradition of excellence in basic research.Read moreRead less
Learning to read: Representations and mechanisms underlying orthographic learning. In literate societies, the ability to read is one of the most important skills an individual ever learns. There are now a number of precisely specified computational models of reading that explain detailed aspects of skilled reading behaviour. However, these models do not incorporate changes in reading ability over time - in particular, they do not explain how the ability to read is acquired. This project aims ....Learning to read: Representations and mechanisms underlying orthographic learning. In literate societies, the ability to read is one of the most important skills an individual ever learns. There are now a number of precisely specified computational models of reading that explain detailed aspects of skilled reading behaviour. However, these models do not incorporate changes in reading ability over time - in particular, they do not explain how the ability to read is acquired. This project aims to understand the learning mechanisms that give rise to skilled reading. Developing detailed models of the process of learning to read will greatly facilitate the early identification and treatment of children with reading difficulties.Read moreRead less
Logic and language: Foundations of cognitive growth. This project investigates children's competence in using language, from a biological perspective. The past twenty years has witnessed innovative developments in behavioral measures (e.g., eye-movement recording) and computational models of language development. I propose to integrate this research with the study of the neural basis of cognitive processes, using a new methodology for functional brain imaging, magnetoencephalography (MEG), The p ....Logic and language: Foundations of cognitive growth. This project investigates children's competence in using language, from a biological perspective. The past twenty years has witnessed innovative developments in behavioral measures (e.g., eye-movement recording) and computational models of language development. I propose to integrate this research with the study of the neural basis of cognitive processes, using a new methodology for functional brain imaging, magnetoencephalography (MEG), The project combines behavioral, computational, and biological methods to better understand (a) the nature of linguistic knowledge, (b) how logical expressions are acquired, and (c) how knowledge of logic and language are put to use by children in production and comprehension.Read moreRead less