M
Mark W. Greenlee
Researcher at University of Regensburg
Publications - 276
Citations - 9961
Mark W. Greenlee is an academic researcher from University of Regensburg. The author has contributed to research in topics: Visual cortex & Functional magnetic resonance imaging. The author has an hindex of 51, co-authored 267 publications receiving 9133 citations. Previous affiliations of Mark W. Greenlee include University Hospital Regensburg & University of Oldenburg.
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Working memory in primate sensory systems
TL;DR: New results provide insights into how activity in these circuits represents the remembered sensory stimuli.
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The Processing of First- and Second-Order Motion in Human Visual Cortex Assessed by Functional Magnetic Resonance Imaging (fMRI)
TL;DR: The results are consistent with the hypothesis that first-order motion sensitivity arises in V1, that second- order motion is first represented explicitly in V3 and VP, and that V5 (and perhaps also V3A and V3B) is involved in further processing of motion information, including the integration of motion signals of the two types.
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Estimating Receptive Field Size from fMRI Data in Human Striate and Extrastriate Visual Cortex
TL;DR: FMRI was used to estimate the average receptive field sizes of neurons in each of several striate and extrastriate visual areas of the human cerebral cortex, and results are qualitatively in line with those obtained by others in macaque monkeys using neurophysiological methods.
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Attentional suppression of activity in the human visual cortex.
TL;DR: In this article, the authors used fMRI to examine the nature of the changes that occur in the human visual cortex when an observer attends to a particular location in the visual image.
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Spatial imagery in deductive reasoning: a functional MRI study
TL;DR: It is argued that reasoners envisage and inspect spatially organized mental models to solve deductive inference problems and relate the activation in the prefrontal cortical areas and in the anterior cingulate gyrus to other imaging studies on higher cognitive functions.