1. 2008 數位互動科技與產業應用研討會 互動表情呈現機器人之技術及趨勢 Approaches to Interactive Emotional Robots 謝銘原 南台科技大學 機器人研究中心 Robotics Research Center, Southern Taiwan University, Taiwan

2. IEEE IECON 2007 Approaches to Interactive Emotional Robots 2 Outline  Introduction to Interactive Emotional Robots  Famous Researches on Emotional Robots  KISMET  Hanson Robotics  Discussions on related technologies  Conclusions

3. IEEE IECON 2007 Approaches to Interactive Emotional Robots 3 Introduction  Interactive Emotional Robots  Anthropomorphic robots display a unique, artificial subconscious, partly due to their  cognitive understanding of language-based interactive speech,  conversational capabilities and genuine eye contact,  coupled with a full range of human facial expressions.  The key technologies consist of  Anthropomorphic artificial musculature and skin  A.I. software

4. IEEE IECON 2007 Approaches to Interactive Emotional Robots 4 Famous Researches on Emotional Robots 1/2  Kismet (MIT)  She can engage people in natural and expressive face-to-face interaction  Reddy (RoboMotio)  By combining facial expression to arms movement, it easily express a wide range of emotions like joy, anger, sadness, surprise or disgust

5. IEEE IECON 2007 Approaches to Interactive Emotional Robots 5 Famous Researches on Emotional Robots - 2/2  Hanson Robotics  The Albert-Hubo -- A collaboration of East and West  The Albert Hubo is the first ever walking robot with realistic, humanlike expressions  Eva -- The best of all worlds  Eva is a humanlike robot of universal beauty achieved by incorporating a mixture of ethnic characteristics  Zeno -- The smartest and coolest robot  Zeno is the first of his kind.  Zeno lives in the “Inventing Academy” in the year 2027 with a whole group of other robot kids, learning and fighting to save humanity.

6. IEEE IECON 2007 Approaches to Interactive Emotional Robots 6 Kismet – 1/5  The Hardware Design  The high-level perception system,  the motivation system,  the behavior system,  the motor skill system,  the face motor system

7. IEEE IECON 2007 Approaches to Interactive Emotional Robots 7 Kismet – 2/5  Vision System  Auditory System  Expressive Motor System  a 15 DoF face  Vocalization System

8. IEEE IECON 2007 Approaches to Interactive Emotional Robots 8 Kismet – 3/5

9. IEEE IECON 2007 Approaches to Interactive Emotional Robots 9 Kismet – 4/5  Social Amplification

10. IEEE IECON 2007 Approaches to Interactive Emotional Robots 10 Kismet – 5/5  Facial expressions  Looking at  Searching the objective  Affective responses

11. IEEE IECON 2007 Approaches to Interactive Emotional Robots 11 Hanson Robotics – 1/5  Each HumanKind robot is  individually hand-crafted  built to perform in a wide variety of applications, including  Entertainment  Research  Animation  Consumer households

12. IEEE IECON 2007 Approaches to Interactive Emotional Robots 12 Hanson Robotics – 2/5  All HumanKind robots have the following capabilities:  Emulate over 62 facial and neck muscles  providing anthropomorphic facial expression  Embedded micro-cameras  providing vision recognition  A.I. software technology for  face and speech recognition,  eye tracking, and  conversational operations

13. IEEE IECON 2007 Approaches to Interactive Emotional Robots 13 Hanson Robotics – 3/5  Capable for local/remote pupeteering  Portable and can run on up to 1/20 the power required for comparable products  Interface with standard computers  included with robot  Can function in a variety of research environments, including  Computer vision,  Computational interaction, and  Speech perception

14. IEEE IECON 2007 Approaches to Interactive Emotional Robots 14 Hanson Robotics – 4/5  Zeno robot – 17” tall, weigh 6 lbs. battery power  learns through artificial intelligence  A character robot that can see, hear, talk and remembers who you are  Wirelessly controlled by a PC  He can view a 3D mental image of his environment to determine and control physical action and reactions, much like we do as humans.  He then has the ability to navigate, make facial expressions and move his body based on what he sees around him.

15. IEEE IECON 2007 Approaches to Interactive Emotional Robots 15 Hanson Robotics – 5/5  A character engine with speech recognition and conversational AI for language reasoning so that  Zeno can recognize and remember both speech and faces and interact accordingly

16. IEEE IECON 2007 Approaches to Interactive Emotional Robots 16 Discussions on related technologies  The key technologies for emotional expression consist of  Anthropomorphic artificial musculature and skin  A.I. technologies (ex. Character Engine software in Hanson Robotics HumanKind Robots)

17. IEEE IECON 2007 Approaches to Interactive Emotional Robots 17 Human musculature of the face

18. IEEE IECON 2007 Approaches to Interactive Emotional Robots 18 Artificial musculature  The head of a typical HumanKind TM robot consists of 32 DOF to simulate human musculature in the face and the neck, there are: (1) 4 DOF in the neck (turn, tilt, nod-upper, nod-lower) (2) 3 DOF in the eyes (left eye turn, right eye turn, eyes up and down) (3) 1 DOF for the jaw (4) 3 DOF for the eyelids (2 upper eyelids, coupled lower eyelids) (5) 21 DOF servos in the face: smile left, smile right, frown left, frown right, “ee”left+right, lower lip center up+out, upper lip center, lower lip ¾ left+right, upper lip ¾ left+right, sneers, eye-scrunches left+right, outer brows left+right, inner brow left+right, and brow center [US Patent 7,113,848, Sep. 26, 2006]

19. IEEE IECON 2007 Approaches to Interactive Emotional Robots 19 Artificial skin  How to get an anthropomorphic skin? [US Patent 7,113,848, Sep. 26, 2006]

20. IEEE IECON 2007 Approaches to Interactive Emotional Robots 20 Artificial musculature and skin  To simulate musculature and skin [US Patent 7,113,848, Sep. 26, 2006]

21. IEEE IECON 2007 Approaches to Interactive Emotional Robots 21 Artificial mouth and eyes  The dynamic actions of the artificial lips, the artificial eyes, and the artificial eyelids [US Patent 7,113,848, Sep. 26, 2006]

22. IEEE IECON 2007 Approaches to Interactive Emotional Robots 22 Artificial Intelligence of Emotional system  Emotional expression  Happy, sad, afraid, disgusted, angry, surprise, contemplative, confused …  A.I. system integrates these techniques:  computer vision,  face detection and identification,  speech recognition,  natural language processing,  speech synthesis, and  motion control

23. IEEE IECON 2007 Approaches to Interactive Emotional Robots 23 The future of emotional robots  The challenges  More anthropopathic facial expression with real emotions  Emotion detection and recognition  Micro servo actuators and their controls  More DOFs  More anthropopathic skin  Bionic material  Sensory, reflective, sensitive to force, pressure and temperature  More intelligent  Integration of multi-perceptions and recognitions  Learning and emulating capabilities  Simple but powerful algorithms

24. IEEE IECON 2007 Approaches to Interactive Emotional Robots 24 Conclusions  Interactive emotional robots need to be developed with  Learning social behaviors during human-robot play  Kismet  To imitate infant and copy the intelligence under nature behavior  Flexible facial framework to display anthropopathic expressions  Hanson Robotics  To emulate human facial musculature and skin and set up sufficient preprogrammed basic facial expressions ZENO

25. IEEE IECON 2007 Approaches to Interactive Emotional Robots Thanks for your attendance 25