Pre-collision safety strategies for human-robot interaction

Safe planning and control is essential to bringing human-robot interaction into common experience. This paper presents an integrated human−robot interaction strategy that ensures the safety of the human participant through a coordinated suite of safety strategies that are selected and implemented to anticipate and respond to varying time horizons for potential hazards and varying expected…

TAME: Time-Varying Affective Response for Humanoid Robots

This paper describes the design of a complex time-varying affective software architecture. It is an expansion of the TAME architecture (Traits, Attitudes, Moods, and Emotions) as applied to humanoid robotics. In particular, it is intended to promote effective human-robot interaction by conveying the robot’s affective state to the user in an easy-to-interpret manner.