Article published In:
Interaction StudiesVol. 15:2 (2014) ► pp.180–183
Improving the modeling of dog-owner interactions for the design of social robots
References
Fong, T., Nourbaksh, I., & Daugtenhahn, K
(2003) A survey of socially interactive robots. Robotics and Autonomous Systems, 421, 143–166. 
Huang, C.M., & Thomaz, A.L
(2011) Effects of responding to, initiating and ensuring joint attention in human-robot interaction.
IEEE International Workshop on Robots and Human Interactive Communications (RO-MAN)
, 65–71.
Hall, E.T
(1966) The hidden dimension. Anchor Books.
Takayama, L., Pantofaru, C
(2009) Influences on proxemic behaviors in human-robot interaction.
IEEE/RSJ International Conference on Intelligent Robots and Systems
, 5495–5502.
Walters, M.L., Dautenhahn, K., Boekhorst, R., Koay, K.L., Syrdal, D.S., & Nehaniv, C.L
(2009) An empirical framework for human-robot proxemics.
Proceedings of New Frontiers in Human-Robot Interaction: Symposium at the AISB09 convention
, 144–149.
Feil-Seifer, D., & Matarić, M.J
(2010) Using proxemics to evaluate human-robot interaction.
Proceedings of the 5th ACM/IEEE International Conference on Human-Robot Interaction
, 143–144.
Mead, R., Atrash, A., & Matarić, M.J
(2013) Automated proxemic peature extraction and behavior recognition: Applications in human-robot interaction. International Journal of Social Robotics (IJSR 2013).
Cited by
Cited by 1 other publications
Faragó, Tamás, Márta Gácsi, Beáta Korcsok & Ádám Miklósi
2014. Why is a dog-behaviour-inspired social robot not a doggy-robot?. Interaction Studies 15:2 ► pp. 224 ff. 
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