Visual Space Perception and Action
Vision is not an end in itself. Instead, it has evolved to assure survival in a dynamic environment. Vision - as well as the other senses - evolved from the necessity to act in this environment. Therefore, perceptual processes and action planning are much more interlocked than evident at first sight. This special issue examines the basic processes of space perception and how these processes interact with action planning and motor control. The tasks under consideration range from the simple localization of a single object to the coordination of a series of events in natural scenes. The contributions were written by various experts in the field, ranging from experimental psychologists, neurophysiologists to computational modellers and philosophers. Each contribution introduces new concepts and ideas that explain how visual space is being established and represented. The overarching question is whether vision and action are based on a single spatial map or on different, interacting spatial representations.
- Paperback | 312 pages
- 156 x 234 x 17.78mm | 498.95g
- 25 Jun 2015
- Taylor & Francis Ltd
- London, United Kingdom
Table of contents
Introduction. F. Bremmer, A. Schlack, W. Graf, J.R. Duhamel, Multisensory Self-motion Encoding in Parietal Cortex. H. Deubel, Localization of Targets Across Saccades: Role of Landmark Objects. W. Erlhagen, D. Jancke, The Role of Action Plans and Other Cognitive Factors in Motion Extrapolation: A Modelling Study. F. Germeys, P. De Graef, S. Panis, C. Van Eccelpoel, K. Verfaillie, Transsaccadic Integration of Bystander Locations. G.W. Humphreys, M.J. Riddoch, S. FortI, K. Ackroyd, Action Influences Spayial Perception. S.H. Johnson-Frey, M.E. McCarty, R. Keen, Reaching Beyond Spatial Perception: Effects of intended Future Actions on Visually Guided Prehension. J. Musseler, A.H.C. Van der Heijden, Two Spatial Maps for Perceived Visual Space: Evidence from Relative Mislocalizations. R. Nijhawan, K. Watanabe, B. Khurana, S. Shimojo, Compensation of Neural Delays in Visual-motor Behaviour: No Evidence for Shorter Afferent Delays for Visual Motion. J.B.J. Smeets, E. Brenner, Curved Movement Paths and the Hering Illusion: Positions or Directions? S. Stork, J. Musseler, Perceived Locations and Eye Movements with Action-enerated and Computer-generated Vanishing Points of Moving Stimuli. I.M. Thornton, A.E. Hayes, Anticipating Action in Complex Scenes. P. Wolff, Position of Code and Code for Position: From Isomorphism to a Sensorimotor Account of Space Perception.