Journal article
Motion extrapolation for eye movements predicts perceived motion-induced position shifts
E van Heusden, M Rolfs, P Cavanagh, H Hogendoorn
Journal of Neuroscience | SOC NEUROSCIENCE | Published : 2018
Abstract
Transmission delays in the nervous system pose challenges for the accurate localization of moving objects as the brain must rely on outdated information to determine their position in space. Acting effectively in the present requires that the brain compensates not only for the time lost in the transmission and processing of sensory information, but also for the expected time that will be spent preparing and executing motor programs. Failure to account for these delays will result in the mislocalization and mistargeting of moving objects. In the visuomotor system, where sensory and motor processes are tightly coupled, this predicts that the perceived position of an object should be related to..
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Awarded by Australian Government
Funding Acknowledgements
This work was supported by the Deutsche Forschungsgemeinschaft (Grants R03579/2-1, R03579/8-1, and R03579/9-1) to M.R., the European Research Council under the European Union's Seventh Framework Program (FP7/2007-2013)/ERC Grant Agreement AG324070 and from the Department of Psychological and Brain Sciences of Dartmouth College, and the Australian Government through the Australian Research Council's Discovery Projects funding scheme (project DP180102268) to E.v.H. and H.H.