Abstract
In real-life situations, we are often required to recognize our own movements among movements originating from other people. In social situations, these movements are often correlated (for example, when dancing or walking with others) adding considerable difficulty to self-recognition. Studies from visual search have shown that visual attention can selectively highlight specific features to make them more salient. Here, we used a novel visual search task employing virtual reality and motion tracking to test whether visual attention can use efferent information to enhance self-recognition of one’s movements among four or six moving avatars. Active movements compared to passive movements allowed faster recognition of the avatar moving like the subject. Critically, search slopes were flat for the active condition but increased for passive movements, suggesting efficient search for active movements. In a second experiment, we tested the effects of using the participants’ own movements temporally delayed as distractors in a self-recognition discrimination task. We replicated the results of the first experiment with more rapid self-recognition during active trials. Importantly, temporally delayed distractors increased reaction times despite being more perceptually different than the spatial distractors. The findings demonstrate the importance of agency in self-recognition and self-other discrimination from movement in social settings.
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References
Bekkering H, Neggers SFW (2002) Visual search is modulated by action intentions. Psychol Sci 13(4):370
Bermúdez JL, Marcel AJ, Eilan N (1998) The body and the self. The MIT Press, Cambridge
Blakemore S, Smith J, Steel R, Johnstone E, Frith C (2000) The perception of self-produced sensory stimuli in patients with auditory hallucinations and passivity experiences: evidence for a breakdown in self-monitoring. Psychol Med 30(05):1131–1139
Blakemore S, Wolpert D, Frith C (2002) Abnormalities in the awareness of action. Trends Cogn Sci 6(6):237–242
Blanke O, Metzinger T (2009) Full-body illusions and minimal phenomenal selfhood. Trends Cogn Sci 13(1):7–13
Blanke O, Mohr C (2005) Out-of-body experience, heautoscopy, and autoscopic hallucination of neurological origin Implications for neurocognitive mechanisms of corporeal awareness and self-consciousness. Brain Res Rev 50(1):184–199
Brass M, Bekkering H, Wohlschläger A, Prinz W (2000) Compatibility between observed and executed finger movements: comparing symbolic, spatial, and imitative cues. Brain Cogn 44(2):124–143
Calvo-Merino B, Glaser D, Grezes J, Passingham R, Haggard P (2005) Action observation and acquired motor skills: an fMRI study with expert dancers. Cereb Cortex 15(8):1243
Casile A, Giese MA (2006) Nonvisual motor training influences biological motion perception. Curr Biol 16(1):69–74. doi:10.1016/j.cub.2005.10.071
Corbetta M, Miezin FM, Dobmeyer S, Shulman GL, Petersen SE (1990) Attentional modulation of neural processing of shape, color, and velocity in humans. Science 248(4962):1556
de Vignemont F, Fourneret P (2004) The sense of agency: a philosophical and empirical review of the “Who” system. Conscious Cogn 13(1):1–19. doi:10.1016/s1053-8100(03)00022-9
Duncan J, Humphreys GW (1989) Visual search and stimulus similarity. Psychol Rev 96(3):433
Engbert K, Wohlschläger A, Thomas R, Haggard P (2007) Agency, subjective time, and other minds. J Exp Psychol Hum Percept Perform 33(6):1261
Farrer C, Frith C (2002) Experiencing oneself vs another person as being the cause of an action: the neural correlates of the experience of agency. Neuroimage 15(3):596–603
Flach R, Knoblich G, Prinz W (2004) Recognizing one’s own clapping: the role of temporal cues. Psychol Res 69(1):147–156
Franck N, Farrer C, Georgieff N, Marie-Cardine M, Daléry J, d’Amato T, Jeannerod M (2001) Defective recognition of one’s own actions in patients with schizophrenia. Am J Psychiatry 158(3):454–459
Gazzola V, Keysers C (2009) The observation and execution of actions share motor and somatosensory voxels in all tested subjects: single-subject analyses of unsmoothed fMRI data. Cereb Cortex 19(6):1239–1255. doi:10.1093/cercor/bhn181
Gusnard D, Akbudak E, Shulman G, Raichle M (2001) Medial prefrontal cortex and self-referential mental activity: relation to a default mode of brain function. Proc Natl Acad Sci USA 98(7):4259
Hommel B, Musseler J, Aschersleben G, Prinz W (2001) The theory of event coding (TEC): a framework for perception and action planning. Behav Brain Sci 24(5):849–877
Jacobs A, Shiffrar M (2005) Walking perception by walking observers. J Exp Psychol Hum Percept Perform 31(1):157
James W (1890) The principles of psychology. Dover Publications, New York
Jeannerod M (1999) The 25th Bartlett Lecture: to act or not to act: perspectives on the representation of actions. Q J Exp Psychol 52(1):1–29
Jeannerod M (2003) The mechanism of self-recognition in humans. Behav Brain Res 142(1–2):1–15
Jeannerod M (2004) Visual and action cues contribute to the self-other distinction. Nat Neurosci 7(5):422–423
Kannape O, Blanke O (2012) Agency, gait and self-consciousness. Int J Psycho 83(2):191–199
Kannape O, Schwabe L, Tadi T, Blanke O (2010) The limits of agency in walking humans. Neuropsychologia 48(6):1628–1636
Kilner J, Hamilton AFC, Blakemore SJ (2007) Interference effect of observed human movement on action is due to velocity profile of biological motion. Soc Neurosci 2(3–4):158–166
Knoblich G, Prinz W (2001) Recognition of self-generated actions from kinematic displays of drawing. J Exp Psychol Hum Percept Perform 27(2):456
Lenggenhager B, Tadi T, Metzinger T, Blanke O (2007) Video ergo sum: manipulating bodily self-consciousness. Science 317(5841):1096
Leube D, Knoblich G, Erb M, Grodd W, Bartels M, Kircher T (2003) The neural correlates of perceiving one’s own movements. Neuroimage 20(4):2084–2090
Rizzolatti G, Craighero L (2004) The mirror-neuron system. Annu Rev Neurosci 27:169–192
Salomon R, Malach R, Lamy D (2009) Involvement of the intrinsic/default system in movement-related self recognition. PLoS One 4(10):e7527
Salomon R, Szpiro-Grinberg S, Lamy D (2011) Self-motion holds a special status in visual processing. PLoS One 6(10):e24347. doi:10.1371/journal.pone.0024347
Salomon R, van Elk M, Aspell JE, Blanke O (2012) I feel who I see: Visual body identity affects visual–tactile integration in peripersonal space. Conscious Cogn 21(3):1355–1364
Salomon R, Ruby-Levi D, Malach R (2013) Deconstructing the default: cortical subdivision of the default mode/intrinsic system during self-related processing. Hum Brain Mapp (in press)
Synofzik M, Vosgerau G, Newen A (2008) I move, therefore I am: a new theoretical framework to investigate agency and ownership. Conscious Cogn 17(2):411–424
Treisman AM, Gelade G (1980) A feature-integration theory of attention. Cogn Psychol 12(1):97–136
Tsakiris M, Haggard P, Franck N, Mainy N, Sirigu A (2005) A specific role for efferent information in self-recognition. Cognition 96(3):215–231
Tsakiris M, Longo MR, Haggard P (2010) Having a body versus moving your body: neural signatures of agency and body-ownership. Neuropsychologia 48(9):2740–2749
Uddin L, Iacoboni M, Lange C, Keenan J (2007) The self and social cognition: the role of cortical midline structures and mirror neurons. Trends Cogn Sci 11(4):153–157
van Elk M, van Schie HT, Neggers SFW, Bekkering H (2010) Neural and temporal dynamics underlying visual selection for action. J Neurophysiol 104(2):972
Wang Q, Cavanagh P, Green M (1994) Familiarity and pop-out in visual search. Atten Percept Psychophys 56(5):495–500
Wolfe JM (1994) Guided search 2.0: a revised model of visual search. Psychon Bull Rev 1(2):202–238
Wolfe JM (1998) Visual search. Attention 1:13–73
Wolpert D, Kawato M (1998a) Multiple paired forward and inverse models for motor control. Neural Netw 11(7–8):1317–1329
Wolpert DM, Kawato M (1998b) Multiple paired forward and inverse models for motor control. Neural Netw 11(7–8):1317–1329
Wolpert DM, Ghahramani Z, Jordan MI (1995) An internal model for sensorimotor integration. Science 269(5232):1880
Yantis S, Jonides J (1984) Abrupt visual onsets and selective attention: evidence from visual search. J Exp Psychol Hum Percept Perform 10(5):601–621
Acknowledgments
O.B. is supported by the Bertarelli Foundation, the Swiss National Science Foundation, and the European Science Foundation. R.S. was supported by the National Center of Competence in Research (NCCR) “SYNAPSY—The Synaptic Bases of Mental Diseases” financed by the Swiss National Science Foundation (No 51AU40_125759).
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Salomon, R., Lim, M., Kannape, O. et al. “Self pop-out”: agency enhances self-recognition in visual search. Exp Brain Res 228, 173–181 (2013). https://doi.org/10.1007/s00221-013-3549-6
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DOI: https://doi.org/10.1007/s00221-013-3549-6