Modelling and predicting patterns of pedestrian movement: using robotics and machine learning to improve the design of urban space. In a geographic region that is experiencing increasing urban density, the problems of the pedestrian are rarely considered from a design perspective. One reason for this is that there are few useful tools available for analysing the behaviour of pedestrians in existing urban spaces, and none to assist designers to optimise such spaces. As a result of this, there is ....Modelling and predicting patterns of pedestrian movement: using robotics and machine learning to improve the design of urban space. In a geographic region that is experiencing increasing urban density, the problems of the pedestrian are rarely considered from a design perspective. One reason for this is that there are few useful tools available for analysing the behaviour of pedestrians in existing urban spaces, and none to assist designers to optimise such spaces. As a result of this, there is an urgent need for the development of design tools to enable a higher level of understanding of pedestrians in public space. This project is a world-first combining urban design theory and machine-learning for creating more socially and culturally responsive environments.Read moreRead less
Predictive Assessment Tool for Beach Conditions Using Video Imaging and Neural Network Analysis. Beaches are vital part of Australian lifestyle and economic development. Monitoring of variable beach conditions is vital for beach safety and for management of storm erosion. The aim of this project is to develop an assessment tool which will permit a rating system of beach conditions both from an environmental as well as a leisure aspect. This tool will be developed into a software analysis system ....Predictive Assessment Tool for Beach Conditions Using Video Imaging and Neural Network Analysis. Beaches are vital part of Australian lifestyle and economic development. Monitoring of variable beach conditions is vital for beach safety and for management of storm erosion. The aim of this project is to develop an assessment tool which will permit a rating system of beach conditions both from an environmental as well as a leisure aspect. This tool will be developed into a software analysis system which will include components of artificial intelligence to enable the system to use feedback loops to create a better prediction of the beach morphology relative to the breaking wave characteristics.Read moreRead less