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Undergraduate Research Associate
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Publications
Would you feel sorry for a simulated robot? Study shows people empathize more with the real thing
Stela H. Seo, Denise Geiskkovitch, Masayuki Nakane, Corey King, and James E. Young. Would you feel sorry for a simulated robot? Study shows people empathize more with the real thing. Robohub, March 2015. http://robohub.org/would-you-feel-sorry-for-a-simulated-robot-study-shows-people-empathize-more-with-the-real-thing/
Poor Thing! Would You Feel Sorry for a Simulated Robot?
Stela H. Seo, Denise Geiskkovitch, Masayuki Nakane, Corey King, James E. Young. “Poor Thing! Would You Feel Sorry for a Simulated Robot? A comparison of empathy toward a physical and a simulated robot,” In proceedings of the 10th ACM/IEEE international conference on Human-Robot Interaction, HRI’2015, Portland, Oregon, USA.
More Human than Human? A Visual Processing Approach to Exploring Believability of Android Faces
Masayuki Nakane, James E. Young, and Neil D. B. Bruce. "More Human than Human? A Visual Processing Approach to Exploring Believability of Android Faces." In the proceeding of the 2nd ACM International Conference on Human-Agent Interaction, 2014.
Ouch! How Embodied Damage Indicators in First-Person Shooting Games Impact Gaming
James E. Young, Ibrahim Shahin, and Masayuki Nakane. "Ouch! How Embodied Damage Indicators in First-Person Shooting Games Impact Gaming Experience." Advances in Computer Entertainment. Springer International Publishing, 2013. 660-664.
Would You Do as a Robot Commands? An Obedience Study for Human-Robot Interaction
Derek Cormier, Gem Newman, Masayuki Nakane, James E. Young, Stephane Durocher. Would You Do as a Robot Commands? An Obedience Study for Human-Robot Interaction. In Proceedings of the First International Conference on Human-Agent Interaction, iHAI'13.
An Interface for Remote Robotic Manipulator Control That Reduces Task Load and Fatigue
Ashish Singh, Stela H. Seo, Yasmeen Hashish, Masayuki Nakane, James E. Young, Andrea Bunt. An Interface for Remote Robotic Manipulator Control That Reduces Task Load and Fatigue. In proceedings of the IEEE international conference on Robot and Human Interactive Communication, 2013. RO-MAN'2013, to appear.