Open AccessMotion and tilt aftereffects occur largely in retinal, not in object, coordinates in the Ternus-Pikler display
Author(s) -
M. Boi,
Haluk Öğmen,
Michael H. Herzog
Publication year - 2011
Publication title -
journal of vision
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.126
H-Index - 113
ISSN - 1534-7362
DOI - 10.1167/11.3.7
Subject(s) - tilt (camera) , computer vision , reference frame , artificial intelligence , computer science , eye movement , motion (physics) , visual cortex , frame (networking) , neuroscience , frame of reference , psychology , physics , mathematics , geometry , telecommunications , quantum mechanics
Recent studies have shown that a variety of aftereffects occurs in a non-retinotopic frame of reference. These findings have been taken as strong evidence that remapping of visual information occurs in a hierarchic manner in the human cortex with an increasing magnitude from early to higher levels. Other studies, however, failed to find non-retinotopic aftereffects. These experiments all relied on paradigms involving eye movements. Recently, we have developed a new paradigm, based on the Ternus-Pikler display, which tests retinotopic vs. non-retinotopic processing without the involvement of eye movements. Using this paradigm, we found strong evidence that attention, form, and motion processing can occur in a non-retinotopic frame of reference. Here, we show that motion and tilt aftereffects are largely retinotopic.
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