Holobody: Advancing the Future of Mixed Reality Technologies. This project aims to advance our understanding and use of mixed reality technologies by pioneering a new approach to interaction in virtual systems that recognises, capitalises on, and expands the potential of the human body as a human-machine interface. The project expects to apply the unique, embodied methodologies of dance and movement technology, integrated with customised software, advanced visualisation and artificial intelligen ....Holobody: Advancing the Future of Mixed Reality Technologies. This project aims to advance our understanding and use of mixed reality technologies by pioneering a new approach to interaction in virtual systems that recognises, capitalises on, and expands the potential of the human body as a human-machine interface. The project expects to apply the unique, embodied methodologies of dance and movement technology, integrated with customised software, advanced visualisation and artificial intelligence, to develop next-generation principles of embodied interaction in virtual systems. Expected outcomes are improved assistive technology, new prototyping techniques for manufacturing, and improved productivity through interactive and immersive systems, benefiting Australian businesses, healthcare and the arts.Read moreRead less
Human-Robot Experience: diversifying social relationships with robots. This Fellowship aims to diversify social relationships with robots by rethinking how a robot becomes a social agent. The project seeks to generate new knowledge in human-robot interaction through an interdisciplinary arts-led approach, bringing together creative robotics, performance techniques and participatory design. Outcomes will include innovative methods for knowledge transfer that engage stakeholders in the design of ' ....Human-Robot Experience: diversifying social relationships with robots. This Fellowship aims to diversify social relationships with robots by rethinking how a robot becomes a social agent. The project seeks to generate new knowledge in human-robot interaction through an interdisciplinary arts-led approach, bringing together creative robotics, performance techniques and participatory design. Outcomes will include innovative methods for knowledge transfer that engage stakeholders in the design of 'robot-assisted living and working' to promote greater quality and diversity. This research has potential for significant social impact by engaging the public in social robot design. Promoting co-production of knowledge across academic, public and industry sectors will significantly benefit Australia’s robotics industry.Read moreRead less