Developing and testing a dynamic model of the proximal and distal motivational processes responsible for the regulation of task-directed effort. The project will provide benefits for society, both in terms of its contribution to scientific knowledge and understanding, and potential applications for end users. The question of how people prioritise tasks, set goals, and apply effort is of fundamental importance for understanding human behaviour. Society benefits from basic research into this quest ....Developing and testing a dynamic model of the proximal and distal motivational processes responsible for the regulation of task-directed effort. The project will provide benefits for society, both in terms of its contribution to scientific knowledge and understanding, and potential applications for end users. The question of how people prioritise tasks, set goals, and apply effort is of fundamental importance for understanding human behaviour. Society benefits from basic research into this question, because it allows us to understand the sources of (and limits to) human resilience. The results have wide application in military, industrial and commercial settings. Examples include the development of tools for training people more effectively, managing their workload, and improving their performance.Read moreRead less
How attention and memory for past events interact in determining performance in an air traffic control conflict detection task. This project addresses the priority of safeguarding Australian transportation systems because it concerns failures of attention or memory as sources of human error in aviation. Outcomes will inform the development of training exercises aimed at improving attention management skills critical to safe performance. The research will strengthen Australia's reputation for cut ....How attention and memory for past events interact in determining performance in an air traffic control conflict detection task. This project addresses the priority of safeguarding Australian transportation systems because it concerns failures of attention or memory as sources of human error in aviation. Outcomes will inform the development of training exercises aimed at improving attention management skills critical to safe performance. The research will strengthen Australia's reputation for cutting edge research that extends basic science to applied domains, as this project is one of few world-wide investigating attention and memory processes in multi-item display tasks. More broadly, the project will provide insight into why individuals can make errors when basing decisions on past experience. Read moreRead less
Development of a computational model for the prediction of mental workload in air traffic control. The aim of the project is to develop a computational model that can measure the flow of traffic through an air sector, and predict the level of workload that an air traffic controller will experience, as well as the overall risk of breakdowns in separation between aircaft. The purpose is to develop a tool that can be used for the purposes of risk analysis and scenario planning. This is a multidisci ....Development of a computational model for the prediction of mental workload in air traffic control. The aim of the project is to develop a computational model that can measure the flow of traffic through an air sector, and predict the level of workload that an air traffic controller will experience, as well as the overall risk of breakdowns in separation between aircaft. The purpose is to develop a tool that can be used for the purposes of risk analysis and scenario planning. This is a multidisciplinary project, integrating recent models of human memory and reasoning, with formal methods for the analysis of human-computer systems. The project will advance our understanding of human memory and reasoning in complex real-world systems.Read moreRead less
A Method for Analysis of Complexity in Cognitive Processes: Applications to Prediction of Industrial Workloads. The project will develop a method for analysis of cognitive complexity in human and animal cognition. It will contribute to basic research because it will enable equivalences and relative complexities of cognitive functions to be determined, independent of content or methodology. It will have applications to education, because it enables complexities of concepts to be recognised and a ....A Method for Analysis of Complexity in Cognitive Processes: Applications to Prediction of Industrial Workloads. The project will develop a method for analysis of cognitive complexity in human and animal cognition. It will contribute to basic research because it will enable equivalences and relative complexities of cognitive functions to be determined, independent of content or methodology. It will have applications to education, because it enables complexities of concepts to be recognised and appropriate pedagogies determined. It also has application to human factors, especially industrial performance and decision making. It will advance on currrent methods because it enables workload to be analysed and predicted, so that it can be factored into job and system design. Read moreRead less
A method for analysis of cognitive complexity: Applications to reasoning, learning and to industrial workloads. The project will develop a method for analysis of cognitive complexity in humans and animals. It will contribute to basic research because it will enable equivalences and relative complexities of cognitive functions to be determined, independent of content or methodology. It has application to human factors, especially in aviation and command and control tasks generally. It will adv ....A method for analysis of cognitive complexity: Applications to reasoning, learning and to industrial workloads. The project will develop a method for analysis of cognitive complexity in humans and animals. It will contribute to basic research because it will enable equivalences and relative complexities of cognitive functions to be determined, independent of content or methodology. It has application to human factors, especially in aviation and command and control tasks generally. It will advance on currrent methods because it enables workload to be analysed and predicted, so that it can be factored into job and system design. It will also have applications to education, because it enables complexities of concepts to be recognised and appropriate pedagogies determined.Read moreRead less