Editorial published In:
Socially Acceptable Robot Behavior: Approaches for Learning, Adaptation and Evaluation
Edited by Oliver Roesler, Elahe Bagheri, Amir Aly, Silvia Rossi and Rachid Alami
[Interaction Studies 23:3] 2022
► pp. 355359
Brave, S., Nass, C., & Hutchinson, K.
(2005, February). Computers that care: investigating the effects of orientation of emotion exhibited by an embodied computer agent. International Journal of Human-Computer Studies, 62(2), 161–178. DOI logoGoogle Scholar
Costantini, S., Formisano, A., & Pitoni, V.
Cramer, H., Goddijn, J., Wielinga, B., & Evers, V.
(2010, March). Effects of (In)Accurate Empathy and Situational Valence on Attitudes towards Robots. In Proceedings of the 5th International Conference on Human-Robot Interaction (HRI).Google Scholar
Fong, T., Nourbakhsh, I., & Dautenhahn, K.
(2003, December). A survey of socially interactive robots. Robotics and Autonomous Systems, 42(3–4), 143–166. DOI logoGoogle Scholar
Groom, V., Chen, J., Johnson, T., Kara, F. A., & Nass, C.
(2010, March). Critic, compatriot, or chump?: Responses to robot blame attribution. In Proceedings of the 5th International Conference on Human-Robot Interaction (HRI). DOI logoGoogle Scholar
Hamacher, A., Bianchi-Berthouze, N., Pipe, A. G., & Eder, K.
(2016, August). Believing in BERT: Using expressive communication to enhance trust and counteract operational error in physical Human-robot interaction. In Proceedings of the 25th IEEE International Symposium on Robot and Human Interactive Communication (RO-MAN). DOI logoGoogle Scholar
Hwang, J., Park, T., & Hwang, W.
(2013, May). The effects of overall robot shape on the emotions invoked in users and the perceived personalities of robot. Applied Ergonomics, 44 (3), 459–471. DOI logoGoogle Scholar
Joosse, M. P., Poppe, R. W., Lohse, M., & Evers, V.
(2014, August). Cultural differences in how an engagement-seeking robot should approach a group of people. In Proceedings of the 5th International Conference on Collaboration across Boundaries: Culture, Distance & Technology (CABS) (p. 121–130). DOI logoGoogle Scholar
Lee, H. R., & Sabanovic, S.
(2014, March). Culturally Variable Preferences for Robot Design and Use in South Korea, Turkey, and the United States. In Proceedings of the 9th International Conference on Human-Robot Interaction (HRI). DOI logoGoogle Scholar
Li, H., Milani, S., Krishnamoorthy, V., Lewis, M., & Sycara, K.
(2019, January). Perceptions of Domestic Robots’ Normative Behavior Across Cultures. In Proceedings of the 2019 Conference on AI, Ethics, and Society (AIES) (p. 345–351). DOI logoGoogle Scholar
Roesler, O., Bagheri, E., & Aly, A.
Scheutz, M., Schermerhorn, P., Kramer, J., & Anderson, D.
(2007, May). First steps toward natural human-like HRI. Autonomous Robots, 22 1, 411–423. DOI logoGoogle Scholar
Shiarlis, K., Messias, J., & Whiteson, S.
(September 2017) Acquiring social interaction behaviours for telepresence robots via deep learning from demonstration. In Proceedings of the International Conference on Intelligent Robots and Systems (IROS). DOI logoGoogle Scholar
Shiomi, M., Nakagawa, K., & Hagita, N.
(2013, December). Design of a gaze behavior at a small mistake moment for a robot. Interaction Studies, 14 (3), 317–328. DOI logoGoogle Scholar
Walters, M. L., Dautenhahn, K., te Boekhorst, R., Koay, K. L., & Woods, S. N.
(2007, April). Exploring the Design Space of Robot Appearance and Behavior in an Attention-Seeking ‘Living Room’ Scenario for a Robot Companion. In Proceedings of the 2007 IEEE Symposium on Artificial Life (p. 341–347). DOI logoGoogle Scholar
Wullenkord, R., Bellon, J., Gransche, B., Nähr-Wagener, S., & Eyssel, F.
Yildirim, Y., & Ugur, E.