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Edit Comment Close Premium member Presentation Transcript Human-Robot Interaction -Emerging Opportunities : Human-Robot Interaction -Emerging Opportunities Pramila Rani 1997A3PS071 October 27,2006Two Faces of Robotics: Two Faces of Robotics Traditional “industry robots” – for assembly and manufacturing “Service and entertainment robots” – for… well, service and entertainmentIntelligent & Autonomous Robots - Emerging Focus in Robotics: Intelligent & Autonomous Robots - Emerging Focus in Robotics The Robot “Invasion” There is a projected increase of 1,145% in the number of personal service robots in use within a year In 2004-2007, more than 4 million new units are forecasted to be added!!! Need for Natural and Intuitive Human-Robot Communication Unlike industrial robots, personal and professional service robots will need to communicate more naturally and spontaneously with people around Robots will be expected to be understanding, emphatic and intelligentMaking Robots Communicate: Making Robots Communicate Attempt to mimic Human-Human Interaction More than 70% of communication is non-verbal or implicit 7% percent of the emotional meaning of a message is communicated verbally. About 38% by paralanguage and 55% via nonverbal channels [1] Most Significant Channels of Implicit Communication in Humans Facial Expressions Vocal Intonation Gestures and Postures Physiology [1] Mehrabian, A. (1971). Silent Messages. Wadsworth, Belmont, California Human-Robot Interaction (HRI): Human-Robot Interaction (HRI) Definition:" The study of humans, robots and the ways in which they influence each other” Vital component for autonomous robots Draws from advancement in computer technology, artificial intelligence, machine learning, speech recognition and simulation, image processing and affective computingBenefits of Advancement in HRI: Benefits of Advancement in HRI Robots would be: Functional in dynamic & unstructured environments Easily operable by users Capable of engaging in multi-modal communication based on user speech, vision, touch and affect More autonomous, reducing manning effort Evolution of Human-Robot Interfaces : Evolution of Human-Robot Interfaces Remote Control & keyboard Tele-operation Speech Vision Physical embodiment Physiological signals Personal & Professional Service Robots - Applications: Personal & Professional Service Robots - Applications Search & Rescue Space Exploration Personal Service Professional Service Education & EntertainmentOpportunities : Opportunities Higher Education & Research Social Robotics – MIT Media Lab Multi-modal human-robot communication - University of British Columbia Human-robot interaction architectures – Carnegie Melon University Sensors and perception for HRI - University of Southern California Museum robotics – Carnegie Melon University Educational Robotics – Vanderbilt University Urban Search and Rescue – University of South Florida Prominent Professors in HRI: Prominent Professors in HRIOpportunities (contd…): Opportunities (contd…) Career in HRI Academia Research and Development Intelligent Robot Design (ActivMedia Robotics) Service Robots (iRobot Corporation) Industrial research – Sony, Honda, Mitsubishi Automobile industry – Ford, Honda, GMMy Dissertation – Making Emotion-Sensitive Robots: My Dissertation – Making Emotion-Sensitive Robots My dissertation Psychophysiology-Based Affective Communication for Implicit Human-Robot Interaction Developing an intuitive affect*-sensitive human-robot interaction framework where affective states are inferred from the human's physiological signals robot working with a human detects and recognizes his/her probable affective state robot adapts its behavior in response to the human's affective state such interaction reduces human anxiety, improves performance and overall interaction experienceFinding the Right Information : Finding the Right Information University Websites Alumni Network HRI Journals, Conferences, and Magazines Project Websites HRI resources on the web http://prldev.csee.usf.edu/hriweb/ Points to Take Home: Points to Take Home HRI – an emerging areas in Robotics- fun, interesting and challenging Bright prospects for higher education and career opportunities Students of CS, EEE, ME, and Instru can apply Plan ahead for MS, PhD. Research Universities and Professors Good Luck! References: References Publications R. Picard, Affective Computing, MIT press, 1997. P. Rani, N. Sarkar, C. Smith, and L. Kirby, “Anxiety Detecting Robotic Systems – Towards Implicit Human-Robot Collaboration,” Robotica, Vol. 22, Issue. 1, pp. 85-95, 2004. Liu, C, Rani, P., Sarkar, N., "Comparison of Machine Learning Techniques for Affect Detection in Human Robot Interaction," IEEE/RSJ International Conference on Intelligent Robots and Systems, August 2005, Canada. B. Reeves and C. Nass, The Media Equation, (Cambridge University press, 1996) Pictures http://robonaut.jsc.nasa.gov/status/RoboReport_11_02_files/image025.jpg www.msnbc.msn.com/id/4517261/ www.odenberg.ie/industrial_robotics.htm http://people.csail.mit.edu/edsinger/image/other_robots/kismet.jpg http://unleashed.it.uts.edu.au/images/robot_soccer.jpg You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
HRI Pramila Shariyar Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINTLite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 351 Category: Entertainment License: All Rights Reserved Like it (1) Dislike it (0) Added: January 03, 2008 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... By: cresazhar (40 month(s) ago) hw to dwnload this Saving..... Post Reply Close Saving..... Edit Comment Close Premium member Presentation Transcript Human-Robot Interaction -Emerging Opportunities : Human-Robot Interaction -Emerging Opportunities Pramila Rani 1997A3PS071 October 27,2006Two Faces of Robotics: Two Faces of Robotics Traditional “industry robots” – for assembly and manufacturing “Service and entertainment robots” – for… well, service and entertainmentIntelligent & Autonomous Robots - Emerging Focus in Robotics: Intelligent & Autonomous Robots - Emerging Focus in Robotics The Robot “Invasion” There is a projected increase of 1,145% in the number of personal service robots in use within a year In 2004-2007, more than 4 million new units are forecasted to be added!!! Need for Natural and Intuitive Human-Robot Communication Unlike industrial robots, personal and professional service robots will need to communicate more naturally and spontaneously with people around Robots will be expected to be understanding, emphatic and intelligentMaking Robots Communicate: Making Robots Communicate Attempt to mimic Human-Human Interaction More than 70% of communication is non-verbal or implicit 7% percent of the emotional meaning of a message is communicated verbally. About 38% by paralanguage and 55% via nonverbal channels [1] Most Significant Channels of Implicit Communication in Humans Facial Expressions Vocal Intonation Gestures and Postures Physiology [1] Mehrabian, A. (1971). Silent Messages. Wadsworth, Belmont, California Human-Robot Interaction (HRI): Human-Robot Interaction (HRI) Definition:" The study of humans, robots and the ways in which they influence each other” Vital component for autonomous robots Draws from advancement in computer technology, artificial intelligence, machine learning, speech recognition and simulation, image processing and affective computingBenefits of Advancement in HRI: Benefits of Advancement in HRI Robots would be: Functional in dynamic & unstructured environments Easily operable by users Capable of engaging in multi-modal communication based on user speech, vision, touch and affect More autonomous, reducing manning effort Evolution of Human-Robot Interfaces : Evolution of Human-Robot Interfaces Remote Control & keyboard Tele-operation Speech Vision Physical embodiment Physiological signals Personal & Professional Service Robots - Applications: Personal & Professional Service Robots - Applications Search & Rescue Space Exploration Personal Service Professional Service Education & EntertainmentOpportunities : Opportunities Higher Education & Research Social Robotics – MIT Media Lab Multi-modal human-robot communication - University of British Columbia Human-robot interaction architectures – Carnegie Melon University Sensors and perception for HRI - University of Southern California Museum robotics – Carnegie Melon University Educational Robotics – Vanderbilt University Urban Search and Rescue – University of South Florida Prominent Professors in HRI: Prominent Professors in HRIOpportunities (contd…): Opportunities (contd…) Career in HRI Academia Research and Development Intelligent Robot Design (ActivMedia Robotics) Service Robots (iRobot Corporation) Industrial research – Sony, Honda, Mitsubishi Automobile industry – Ford, Honda, GMMy Dissertation – Making Emotion-Sensitive Robots: My Dissertation – Making Emotion-Sensitive Robots My dissertation Psychophysiology-Based Affective Communication for Implicit Human-Robot Interaction Developing an intuitive affect*-sensitive human-robot interaction framework where affective states are inferred from the human's physiological signals robot working with a human detects and recognizes his/her probable affective state robot adapts its behavior in response to the human's affective state such interaction reduces human anxiety, improves performance and overall interaction experienceFinding the Right Information : Finding the Right Information University Websites Alumni Network HRI Journals, Conferences, and Magazines Project Websites HRI resources on the web http://prldev.csee.usf.edu/hriweb/ Points to Take Home: Points to Take Home HRI – an emerging areas in Robotics- fun, interesting and challenging Bright prospects for higher education and career opportunities Students of CS, EEE, ME, and Instru can apply Plan ahead for MS, PhD. Research Universities and Professors Good Luck! References: References Publications R. Picard, Affective Computing, MIT press, 1997. P. Rani, N. Sarkar, C. Smith, and L. Kirby, “Anxiety Detecting Robotic Systems – Towards Implicit Human-Robot Collaboration,” Robotica, Vol. 22, Issue. 1, pp. 85-95, 2004. Liu, C, Rani, P., Sarkar, N., "Comparison of Machine Learning Techniques for Affect Detection in Human Robot Interaction," IEEE/RSJ International Conference on Intelligent Robots and Systems, August 2005, Canada. B. Reeves and C. Nass, The Media Equation, (Cambridge University press, 1996) Pictures http://robonaut.jsc.nasa.gov/status/RoboReport_11_02_files/image025.jpg www.msnbc.msn.com/id/4517261/ www.odenberg.ie/industrial_robotics.htm http://people.csail.mit.edu/edsinger/image/other_robots/kismet.jpg http://unleashed.it.uts.edu.au/images/robot_soccer.jpg