Generation of Nodding, Head tilting and Gazing for Human-Robot speech Interaction

Head motion occurs naturally and in synchrony with speech during human dialogue communication, and may carry paralinguistic information, such as intentions, attitudes and emotions. Therefore, natural-looking head motion by a robot is important for smooth human–robot interaction. Based on rules inferred from analyses of the relationship between head motion and dialogue acts, this paper proposes a model for generating head tilting and nodding, and evaluates the model using three types of humanoid robot (a very human-like android, "Geminoid F", a typical humanoid robot with less facial degrees of freedom, "Robovie R2", and a robot with a 3-axis rotatable neck and movable lips, "Telenoid R2"). Analysis of subjective scores shows that the proposed model including head tilting and nodding can generate head motion with increased naturalness compared to nodding only or directly mapping people's original motions without gaze information. We also find that an upward motion of a robot's face can be used by robots which do not have a mouth in order to provide the appearance that utterance is taking place. Finally, we conduct an experiment in which participants act as visitors to an information desk attended by robots. As a consequence, we verify that our generation model performs equally to directly mapping people's original motions with gaze information in terms of perceived naturalness.

[1]  A. Boxer,et al.  Signal functions of infant facial expression and gaze direction during mother-infant face-to-face play. , 1979, Child development.

[2]  F. Kaplan,et al.  The challenges of joint attention , 2006 .

[3]  Hiroshi Ishiguro,et al.  Analysis of head motions and speech, and head motion control in an android , 2007 .

[4]  Jeffery A. Jones,et al.  Visual Prosody and Speech Intelligibility , 2004, Psychological science.

[5]  Björn Granström,et al.  Visual correlates to prominence in several expressive modes , 2006, INTERSPEECH.

[6]  Ronald C. Arkin,et al.  Behavioral overlays for non-verbal communication expression on a humanoid robot , 2007, Auton. Robots.

[7]  Katsuhiko Shirai,et al.  Analysis of head movements and its role in spoken dialogue , 1996, Proceeding of Fourth International Conference on Spoken Language Processing. ICSLP '96.

[8]  Takaaki Kuratate,et al.  Linking facial animation, head motion and speech acoustics , 2002, J. Phonetics.

[9]  A. Murat Tekalp,et al.  Combined Gesture-Speech Analysis and Speech Driven Gesture Synthesis , 2006, 2006 IEEE International Conference on Multimedia and Expo.

[10]  Minoru Asada,et al.  Learning for joint attention helped by functional development , 2006, Adv. Robotics.

[11]  Jon Oberlander,et al.  Corpus-based generation of head and eyebrow motion for an embodied conversational agent , 2007, Lang. Resour. Evaluation.

[12]  Volker Strom,et al.  Visual prosody: facial movements accompanying speech , 2002, Proceedings of Fifth IEEE International Conference on Automatic Face Gesture Recognition.

[13]  Hiroshi Ishiguro,et al.  Head motions during dialogue speech and nod timing control in humanoid robots , 2010, HRI 2010.

[14]  Zhigang Deng,et al.  Rigid Head Motion in Expressive Speech Animation: Analysis and Synthesis , 2007, IEEE Transactions on Audio, Speech, and Language Processing.

[15]  V. Bruce,et al.  Do the eyes have it? Cues to the direction of social attention , 2000, Trends in Cognitive Sciences.

[16]  Trevor Darrell,et al.  Head gestures for perceptual interfaces: The role of context in improving recognition , 2007, Artif. Intell..