Abstract
This chapter reviews evidence regarding the predictive relationship between execution of actions and their effect on performance of cognitive tasks based on processing visual feedback. The concept of forward modeling of action refers to a process whereby simulated or executed actions evoke a predictive model of the future state and position of the effector. For visually guided tasks, this forward model might include the visual outcome of the action. We describe a series of behavioural experiments that suggest that forward model output generated during action performance can assist in the processing of related visual stimuli. Additional results from a neuroimaging experiment on this “motor-visual priming” indicate that the superior parietal lobule is a likely key structure for processing the relationship between performed movements and visual feedback of those movements, and that this predictive system can be accessed for cognitive tasks.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Bekkering H, Wohlschlager A, Gattis M (2000) Imitation of gestures in children is goal-directed. Quarterly Journal Of Experimental Psychology Section A-Human Experimental Psychology 53: 153–164.
Blakemore SJ, Wolpert DM, Frith CD (1998) Central cancellation of self-produced tickle sensation. Nat Neurosci 1: 635–640.
Brass M, Bekkering H, Wohlschlager A, Prinz W (2000) Compatibility between observed and executed finger movements: comparing symbolic, spatial, and imitative cues. Brain Cogn 44: 124–143.
Craighero L, Bello A, Fadiga L, Rizzolatti G (2002) Hand action preparation influences the responses to hand pictures. Neuropsychol 40: 492–502.
Craighero L, Fadiga L, Rizzolatti G, Umilta C (1999) Action for perception: A motor-visual attentional effect. Journal of Experimental Psychology-Human Perception and Performance 25: 1673–1692.
Fink GR, Marshall JC, Halligan PW, Frith CD, Driver J, Frackowiak RS, Dolan RJ (1999) The neural consequences of conflict between intention and the senses. Brain 122 (Pt 3): 497–512.
Frak V, Paulignan Y, Jeannerod M (2001) Orientation of the opposition axis in mentally simulated grasping. Exp Brain Res 136: 120–127.
Gallese V, Fadiga L, Fogassi L, Rizzolatti G (1996) Action recognition in the premotor cortex. Brain 119 ( Pt 2): 593–609.
Grezes J, Decety J (2001) Functional anatomy of execution, mental simulation, observation, and verb generation of actions: a meta-analysis. Hum Brain Mapp 12: 1–19.
Han S, Jiang Y, Humphreys GW, Zhou T, Cai P (2005) Distinct neural substrates for the perception of real and virtual visual worlds. Neuroimage 24: 928–935.
∗Iacoboni M (2005) Understanding others: Imitation, Language, and Empathy. In: Hurley S, Chater N, editors. Perspectives on Imitation, 1: Mechanisms of Imitation and Imitation in Animals. 77–100.
Keysers C, Kohler E, Umilta MA, Nanetti L, Fogassi L, Gallese V (2003) Audiovisual mirror neurons and action recognition. Exp Brain Res 153: 628–636.
Kilner JM, Paulignan Y, Blakemore SJ (2003) An interference effect of observed biological movement on action. Curr Biol 13: 522–525.
Kohler E, Keysers C, Umilta MA, Fogassi L, Gallese V, Rizzolatti G (2002) Hearing sounds, understanding actions: action representation in mirror neurons. Science 297: 846–848.
MacDonald PA, Paus T (2003) The Role of Parietal Cortex in Awareness of Self-generated Movements: a Transcranial Magnetic Stimulation Study. Cereb Cortex 13: 962–967.
Miall RC, Stanley J, Todhunter S, Levick C, Lindo S, Miall JD (2006) Performing hand actions assists the visual discrimination of similar hand postures. Neuropsychol 44: 966–976.
∗Miall RC, Wolpert DM (1996) Forward models for physiological motor control. Neural Netw 9: 1265–1279.
Parsons LM (1994) Temporal and kinematic properties of motor behavior reflected in mentally simulated action. J Exp Psychol Hum Percept Perform 20: 709–730.
Parsons LM, Fox PT, Hunter Downs J, Glass T, Hirsch TB, Martin CC, Jerabek PA, Lancaster JL (1995) Use of implicit motor imagery for visual shape discrimination as revealed by PET. Nature 375: 54–58.
Perani D, Fazio F, Borghese NA, Tettamanti M, Ferrari S, Decety J, Gilardi MC (2001) Different brain correlates for watching real and virtual hand actions. Neuroimage 14: 749–758.
∗Rizzolatti G, Fadiga L, Gallese V, Fogassi L (1996) Premotor cortex and the recognition of motor actions. Brain Res Cogn Brain Res 3: 131–141.
Rizzolatti G, Fogassi L, Gallese V (2001) Neurophysiological mechanisms underlying the understanding and imitation of action. Nat Rev Neurosci 2: 661–670.
Schofield WN (1976) Do Children Find Movements Which Cross Body Midline Difficult. Q J Exp Psychol 28: 571–582.
Stanley J, Miall RC (2006) Functional activation in parieto-premotor and visual areas dependent on congruency between hand movement and visual stimuli during motor-visual priming. Neuroimage 34: 290–299.
Umilta MA, Kohler E, Gallese V, Fogassi L, Fadiga L, Keysers C, Rizzolatti G (2001) I know what you are doing. a neurophysiological study. Neuron 31: 155–165.
Vogt S, Taylor P, Hopkins B (2003) Visuomotor priming by pictures of hand postures: perspective matters. Neuropsychol 41: 941–951.
Wolpert DM, Goodbody SJ, Husain M (1998) Maintaining internal representations: the role of the human superior parietal lobe. Nat Neurosci 1: 529–533.
Wolpert DM, Miall RC, Kawato M (1998) Internal models in the cerebellum. Trends Cogn Sci 2: 338–347.
The references marked with an asterisk (*) are specifically recommended for further introduction or background to the topic.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2009 Springer Science+Business Media, LLC
About this chapter
Cite this chapter
Stanley, J., Miall, R.C. (2009). Using Predictive Motor Control Processes in a Cognitive Task: Behavioral and Neuroanatomical Perspectives. In: Sternad, D. (eds) Progress in Motor Control. Advances in Experimental Medicine and Biology, vol 629. Springer, Boston, MA. https://doi.org/10.1007/978-0-387-77064-2_17
Download citation
DOI: https://doi.org/10.1007/978-0-387-77064-2_17
Publisher Name: Springer, Boston, MA
Print ISBN: 978-0-387-77063-5
Online ISBN: 978-0-387-77064-2
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)