Bringing the Scene Back to the Tele-operator

Abstract

In a tele-operated robot system, the reproduction of auditory scenes, conveying 3D spatial information of sound sources in the remote robot environment, is important for the transmission of remote presence to the tele-operator. We proposed a tele-presence system which is able to reproduce and manipulate the auditory scenes of a remote robot environment, based on the spatial information of human voices around the robot, matched with the operator's head orientation. In the robot side, voice sources are localized and separated by using multiple microphone arrays and human tracking technologies, while in the operator side, the operator's head movement is tracked and used to relocate the spatial positions of the separated sources. Interaction experiments with humans in the robot environment indicated that the proposed system had significantly higher accuracy rates for perceived direction of sounds, and higher subjective scores for sense of presence and listenability, compared to a baseline system using stereo binaural sounds obtained by two microphones located at the humanoid robot's ears. We also proposed three different user interfaces for augmented auditory scene control. Evaluation results indicated higher subjective scores for sense of presence and usability in two of the interfaces (control of voice amplitudes based on virtual robot positioning, and amplification of voices in the frontal direction).