Performative Body-Mapping (PBM) method for socialising non-humanlike robots. This project aims to transform techniques of embodiment that are central to human–robot interaction, to improve the social skills and acceptability of future robots. Robots are increasingly becoming part of our lives in the sectors of health, education, commerce and leisure. But robots’ social skills today fall far behind their functional capabilities. Performative body-mapping (PBM) aims to address this problem by inve ....Performative Body-Mapping (PBM) method for socialising non-humanlike robots. This project aims to transform techniques of embodiment that are central to human–robot interaction, to improve the social skills and acceptability of future robots. Robots are increasingly becoming part of our lives in the sectors of health, education, commerce and leisure. But robots’ social skills today fall far behind their functional capabilities. Performative body-mapping (PBM) aims to address this problem by inventing and trialling a transdisciplinary body-mapping method for socialising non-humanlike robots. Significantly, this would allow for social robots to be non-humanoid in appearance but still appealing and readable to humans, and robots to be taught to interact by using human movement expertise in an innovative, effective way.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