Neural circuit control of effort under stress . This Project aims to investigate how the ‘decision’ to persist in exerting effort to obtain a reward is encoded in the the brain and affected by stress. This work will generate new knowledge on the neural mechanisms through which stress modifies neural activity to control decision making processes underpinning adaptive behaviours essential for survival. The expected outcomes of this work include enhanced capacity at the interface of behavioural a ....Neural circuit control of effort under stress . This Project aims to investigate how the ‘decision’ to persist in exerting effort to obtain a reward is encoded in the the brain and affected by stress. This work will generate new knowledge on the neural mechanisms through which stress modifies neural activity to control decision making processes underpinning adaptive behaviours essential for survival. The expected outcomes of this work include enhanced capacity at the interface of behavioural and computational neuroscience, that will in turn provide significant benefits through greater insight into brain functions essential for survival, with long ranging implications for performance optimisation and brain-inspired computing. Read moreRead less
What is the role of striatal dopamine in value-based decision-making? The aim of this project is to understand the role of dopamine in the brain circuits controlling goal-directed action. Its significance lies in our use of newly developed tools to measure dopamine release and cellular activity concurrently to assess the causal role of this interaction in choice and decision-making. The expected outcome of this project is to provide a comprehensive understanding of the role of dopamine release i ....What is the role of striatal dopamine in value-based decision-making? The aim of this project is to understand the role of dopamine in the brain circuits controlling goal-directed action. Its significance lies in our use of newly developed tools to measure dopamine release and cellular activity concurrently to assess the causal role of this interaction in choice and decision-making. The expected outcome of this project is to provide a comprehensive understanding of the role of dopamine release in striatal cellular activity and in the psychological processes mediating goal-directed decision-making. This outcome will have the benefit of filling a gap in our knowledge of the brain processes mediating decision-making, a fundamental capacity that contributes to our physical and psychological wellbeing (wellness). Read moreRead less
Towards a cognitive process model of how attention and choice interact. Before making any decision, we must gather information on what options are available. This process may influence the choices we make: if we do not notice an option, we will not choose it even if it would have been valuable. This project aims to examine how prior experience can produce attentional biases that influence decisions, and will develop a new computational model of this interaction of attention and choice as an outc ....Towards a cognitive process model of how attention and choice interact. Before making any decision, we must gather information on what options are available. This process may influence the choices we make: if we do not notice an option, we will not choose it even if it would have been valuable. This project aims to examine how prior experience can produce attentional biases that influence decisions, and will develop a new computational model of this interaction of attention and choice as an outcome. This new knowledge will enhance the world-class status of Australian cognitive psychology. Moreover, it should provide significant benefits through improving our ability to predict and shape behaviour, and shedding light on the role of biases in healthy cognition and in the context of compulsive behaviours.Read moreRead less