Eye to I: Males Recognize Own Eye Movements, Females Inhibit Recognition

Prajakt Pande; Sanjay Chandrasekharan; Jeenath Rahaman; Geetanjali Date; Rafikh Shaikh; Anveshna Srivastava; Nisheeth Srivastava; Harshit Agarwal

Eye to I: Males Recognize Own Eye Movements, Females Inhibit Recognition

Prajakt Pande, Sanjay Chandrasekharan^*, Jeenath Rahaman, Geetanjali Date, Rafikh Shaikh, Anveshna Srivastava, Nisheeth Srivastava, Harshit Agarwal

^*Corresponding author

Publikation: Bidrag til bog/antologi/rapport › Konferencebidrag i proceedings › Forskning › peer review

Abstract

Studies show that people can recognize their own movements, such as their own walking (presented in silhouette using point lights), their own drawing (presented as a moving point light), own clapping, and their own piano playing. We extend this result to proprioceptive control, showing that people can recognize their own eye movements, when presented as just a point moving against a black background. Eye movements were recorded using a wearable eye tracking glass, while participants executed four tasks. A week later, participants were shown these videos, alongside another person's videos, for each task, and asked to recognize their own movements. Males recognized their own eye movements significantly above chance, but only for tasks with large and familiar body movements. Females performed below chance in these tasks. We argue that the standard common coding/motor simulation model does not account for this result, and propose an extension where eye movements and body movements are strongly coupled. In this model, eye movements automatically trigger covert motor activation, and thus participate directly in motor planning, simulations and the sense of agency.

Originalsprog	Engelsk
Titel	Proceedings of the 37th Annual Meeting of the Cognitive Science Society
Redaktører	C. D. Noelle, R. Dale, A. S. Warlaumont, J. Yoshimi, T. Matlock, C. D. Jennings, P. P. Maglio
Antal sider	6
Udgivelsessted	Austin, Texas
Forlag	Cognitive Science Society
Publikationsdato	2015
Sider	327
Status	Udgivet - 2015

Link til dokument

https://mindmodeling.org/cogsci2015/papers/0066/paper0066.pdf

Citer dette

Pande, P., Chandrasekharan, S., Rahaman, J., Date, G., Shaikh, R., Srivastava, A., Srivastava, N., & Agarwal, H. (2015). Eye to I: Males Recognize Own Eye Movements, Females Inhibit Recognition. I C. D. Noelle, R. Dale, A. S. Warlaumont, J. Yoshimi, T. Matlock, C. D. Jennings, & P. P. Maglio (red.), Proceedings of the 37th Annual Meeting of the Cognitive Science Society (s. 327). Cognitive Science Society. https://mindmodeling.org/cogsci2015/papers/0066/paper0066.pdf

Pande, Prajakt ; Chandrasekharan, Sanjay ; Rahaman, Jeenath et al. / Eye to I: Males Recognize Own Eye Movements, Females Inhibit Recognition. Proceedings of the 37th Annual Meeting of the Cognitive Science Society. red. / C. D. Noelle ; R. Dale ; A. S. Warlaumont ; J. Yoshimi ; T. Matlock ; C. D. Jennings ; P. P. Maglio. Austin, Texas : Cognitive Science Society, 2015. s. 327

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title = "Eye to I: Males Recognize Own Eye Movements, Females Inhibit Recognition",

abstract = "Studies show that people can recognize their own movements, such as their own walking (presented in silhouette using point lights), their own drawing (presented as a moving point light), own clapping, and their own piano playing. We extend this result to proprioceptive control, showing that people can recognize their own eye movements, when presented as just a point moving against a black background. Eye movements were recorded using a wearable eye tracking glass, while participants executed four tasks. A week later, participants were shown these videos, alongside another person's videos, for each task, and asked to recognize their own movements. Males recognized their own eye movements significantly above chance, but only for tasks with large and familiar body movements. Females performed below chance in these tasks. We argue that the standard common coding/motor simulation model does not account for this result, and propose an extension where eye movements and body movements are strongly coupled. In this model, eye movements automatically trigger covert motor activation, and thus participate directly in motor planning, simulations and the sense of agency.",

keywords = "Self-recognition, Eye movements, Common coding, Motor simulation, Oculo-motor coupling, Agency",

author = "Prajakt Pande and Sanjay Chandrasekharan and Jeenath Rahaman and Geetanjali Date and Rafikh Shaikh and Anveshna Srivastava and Nisheeth Srivastava and Harshit Agarwal",

year = "2015",

language = "English",

pages = "327",

editor = "Noelle, {C. D.} and R. Dale and Warlaumont, {A. S.} and J. Yoshimi and T. Matlock and Jennings, {C. D. } and Maglio, {P. P.}",

booktitle = "Proceedings of the 37th Annual Meeting of the Cognitive Science Society",

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Pande, P, Chandrasekharan, S, Rahaman, J, Date, G, Shaikh, R, Srivastava, A, Srivastava, N & Agarwal, H 2015, Eye to I: Males Recognize Own Eye Movements, Females Inhibit Recognition. i CD Noelle, R Dale, AS Warlaumont, J Yoshimi, T Matlock, CD Jennings & PP Maglio (red), Proceedings of the 37th Annual Meeting of the Cognitive Science Society. Cognitive Science Society, Austin, Texas, s. 327. <https://mindmodeling.org/cogsci2015/papers/0066/paper0066.pdf>

Eye to I: Males Recognize Own Eye Movements, Females Inhibit Recognition. / Pande, Prajakt; Chandrasekharan, Sanjay; Rahaman, Jeenath et al.

Proceedings of the 37th Annual Meeting of the Cognitive Science Society. red. / C. D. Noelle; R. Dale; A. S. Warlaumont; J. Yoshimi; T. Matlock; C. D. Jennings; P. P. Maglio. Austin, Texas : Cognitive Science Society, 2015. s. 327.

Publikation: Bidrag til bog/antologi/rapport › Konferencebidrag i proceedings › Forskning › peer review

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AU - Pande, Prajakt

AU - Chandrasekharan, Sanjay

AU - Rahaman, Jeenath

AU - Date, Geetanjali

AU - Shaikh, Rafikh

AU - Srivastava, Anveshna

AU - Srivastava, Nisheeth

AU - Agarwal, Harshit

PY - 2015

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N2 - Studies show that people can recognize their own movements, such as their own walking (presented in silhouette using point lights), their own drawing (presented as a moving point light), own clapping, and their own piano playing. We extend this result to proprioceptive control, showing that people can recognize their own eye movements, when presented as just a point moving against a black background. Eye movements were recorded using a wearable eye tracking glass, while participants executed four tasks. A week later, participants were shown these videos, alongside another person's videos, for each task, and asked to recognize their own movements. Males recognized their own eye movements significantly above chance, but only for tasks with large and familiar body movements. Females performed below chance in these tasks. We argue that the standard common coding/motor simulation model does not account for this result, and propose an extension where eye movements and body movements are strongly coupled. In this model, eye movements automatically trigger covert motor activation, and thus participate directly in motor planning, simulations and the sense of agency.

AB - Studies show that people can recognize their own movements, such as their own walking (presented in silhouette using point lights), their own drawing (presented as a moving point light), own clapping, and their own piano playing. We extend this result to proprioceptive control, showing that people can recognize their own eye movements, when presented as just a point moving against a black background. Eye movements were recorded using a wearable eye tracking glass, while participants executed four tasks. A week later, participants were shown these videos, alongside another person's videos, for each task, and asked to recognize their own movements. Males recognized their own eye movements significantly above chance, but only for tasks with large and familiar body movements. Females performed below chance in these tasks. We argue that the standard common coding/motor simulation model does not account for this result, and propose an extension where eye movements and body movements are strongly coupled. In this model, eye movements automatically trigger covert motor activation, and thus participate directly in motor planning, simulations and the sense of agency.

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