Sensorimotor paradigms for design of movement and social interaction

Research output: Chapter in Book/Report/Conference proceedingConference contributionAcademicpeer-review

Abstract

The human brain has evolved for governing motor activity by transforming sensory patterns to patterns of motor coordination. Movement, as a basic bodily expression of this governing function is shown to underlie higher cognitive processes and social interaction.There are three prevailing concepts of sensorimotor interaction that set up different frameworks for design of artificial movement. This paper focuses on the common coding [1??] paradigm of sensorimotor interaction as justified by recent experimental studies on the mirror neuron system. It aims to provide a novel approach to design of movement interactions in an inter-agent setting.
Original languageEnglish
Title of host publicationDesign and semantics of form and movement : DeSForM 2006
EditorsL. Feijs, S. Kyffin, B. Young
Place of PublicationEindhoven
PublisherEindhoven University of Technology
Pages126-130
ISBN (Print)978-90-386-2559-1
Publication statusPublished - 2006
Event2nd European Workshop on Design and Semantics of Form and Movement (DeSForM 2006) - Evoluon, Eindhoven, Netherlands
Duration: 26 Oct 200627 Oct 2006
http://www.desform2006.id.tue.nl/

Workshop

Workshop2nd European Workshop on Design and Semantics of Form and Movement (DeSForM 2006)
Abbreviated titleDeSForM 2006
CountryNetherlands
CityEindhoven
Period26/10/0627/10/06
Internet address

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Neurons
Brain
Mirrors

Cite this

Barakova, E. I. (2006). Sensorimotor paradigms for design of movement and social interaction. In L. Feijs, S. Kyffin, & B. Young (Eds.), Design and semantics of form and movement : DeSForM 2006 (pp. 126-130). Eindhoven: Eindhoven University of Technology.
Barakova, E.I. / Sensorimotor paradigms for design of movement and social interaction. Design and semantics of form and movement : DeSForM 2006. editor / L. Feijs ; S. Kyffin ; B. Young. Eindhoven : Eindhoven University of Technology, 2006. pp. 126-130
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abstract = "The human brain has evolved for governing motor activity by transforming sensory patterns to patterns of motor coordination. Movement, as a basic bodily expression of this governing function is shown to underlie higher cognitive processes and social interaction.There are three prevailing concepts of sensorimotor interaction that set up different frameworks for design of artificial movement. This paper focuses on the common coding [1??] paradigm of sensorimotor interaction as justified by recent experimental studies on the mirror neuron system. It aims to provide a novel approach to design of movement interactions in an inter-agent setting.",
author = "E.I. Barakova",
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isbn = "978-90-386-2559-1",
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editor = "L. Feijs and S. Kyffin and B. Young",
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Barakova, EI 2006, Sensorimotor paradigms for design of movement and social interaction. in L Feijs, S Kyffin & B Young (eds), Design and semantics of form and movement : DeSForM 2006. Eindhoven University of Technology, Eindhoven, pp. 126-130, 2nd European Workshop on Design and Semantics of Form and Movement (DeSForM 2006), Eindhoven, Netherlands, 26/10/06.

Sensorimotor paradigms for design of movement and social interaction. / Barakova, E.I.

Design and semantics of form and movement : DeSForM 2006. ed. / L. Feijs; S. Kyffin; B. Young. Eindhoven : Eindhoven University of Technology, 2006. p. 126-130.

Research output: Chapter in Book/Report/Conference proceedingConference contributionAcademicpeer-review

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AB - The human brain has evolved for governing motor activity by transforming sensory patterns to patterns of motor coordination. Movement, as a basic bodily expression of this governing function is shown to underlie higher cognitive processes and social interaction.There are three prevailing concepts of sensorimotor interaction that set up different frameworks for design of artificial movement. This paper focuses on the common coding [1??] paradigm of sensorimotor interaction as justified by recent experimental studies on the mirror neuron system. It aims to provide a novel approach to design of movement interactions in an inter-agent setting.

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BT - Design and semantics of form and movement : DeSForM 2006

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Barakova EI. Sensorimotor paradigms for design of movement and social interaction. In Feijs L, Kyffin S, Young B, editors, Design and semantics of form and movement : DeSForM 2006. Eindhoven: Eindhoven University of Technology. 2006. p. 126-130