Perceptual learning: psychophysical thresholds and electrical brain topography

We studied perceptual learning by determining psychophysical discrimination thresholds for visual hyper acuity targets (vernier stimuli) as a function of stimulus orientation. One aim was to relate perceptual improvements to changes of electrophysiological activity of the human brain. A group of 43...

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Veröffentlicht in:	International journal of psychophysiology 2001-06, Vol.41 (2), p.119-129
Hauptverfasser:	Skrandies, W., Jedynak, A., Fahle, M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Adult Behavioral psychophysiology Biological and medical sciences Brain - physiology Brain electrical topography Brain Mapping Discrimination (Psychology) - physiology Electrophysiology Evoked Potentials, Visual - physiology Female Fundamental and applied biological sciences. Psychology Humans Learning - physiology Male Perception - physiology Perceptual learning Psychology. Psychoanalysis. Psychiatry Psychology. Psychophysiology Psychophysics Psychophysics - methods Sensory Thresholds - physiology Visual Acuity - physiology Visual evoked potential (VEP)
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container_end_page	129
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container_start_page	119
container_title	International journal of psychophysiology
container_volume	41
creator	Skrandies, W. Jedynak, A. Fahle, M.
description	We studied perceptual learning by determining psychophysical discrimination thresholds for visual hyper acuity targets (vernier stimuli) as a function of stimulus orientation. One aim was to relate perceptual improvements to changes of electrophysiological activity of the human brain. A group of 43 healthy adults participated in a psychophysical experiment where vernier thresholds for vertical and horizontal vernier targets were compared. In 16 subjects thresholds were measured for each orientation twice at an interval of 25 min. Between threshold estimations, evoked brain activity was recorded from 30 electrodes over the occipital brain areas while the subjects observed appearance and disappearance of supra-threshold vernier offsets. Mean evoked potentials were computed for the first and second 600 stimulus presentations, and the scalp topography of electrical brain activity was analyzed. Vertically oriented stimuli yielded significantly better performance than horizontal targets, and thresholds were significantly lower in the second half of the experiment, i.e. after prolonged viewing of stimuli. The improvements in discrimination performance were specific for stimulus orientation and did not generalize. Learning effects were also observed with electrical brain activity, and field strength of the potentials increased significantly as a function of time. Scalp topography of the evoked components was significantly affected indicating a shift of activation between different neuronal elements induced by perceptual learning.
doi_str_mv	10.1016/S0167-8760(00)00177-X
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The improvements in discrimination performance were specific for stimulus orientation and did not generalize. Learning effects were also observed with electrical brain activity, and field strength of the potentials increased significantly as a function of time. 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One aim was to relate perceptual improvements to changes of electrophysiological activity of the human brain. A group of 43 healthy adults participated in a psychophysical experiment where vernier thresholds for vertical and horizontal vernier targets were compared. In 16 subjects thresholds were measured for each orientation twice at an interval of 25 min. Between threshold estimations, evoked brain activity was recorded from 30 electrodes over the occipital brain areas while the subjects observed appearance and disappearance of supra-threshold vernier offsets. Mean evoked potentials were computed for the first and second 600 stimulus presentations, and the scalp topography of electrical brain activity was analyzed. Vertically oriented stimuli yielded significantly better performance than horizontal targets, and thresholds were significantly lower in the second half of the experiment, i.e. after prolonged viewing of stimuli. The improvements in discrimination performance were specific for stimulus orientation and did not generalize. Learning effects were also observed with electrical brain activity, and field strength of the potentials increased significantly as a function of time. Scalp topography of the evoked components was significantly affected indicating a shift of activation between different neuronal elements induced by perceptual learning.</description><subject>Adult</subject><subject>Behavioral psychophysiology</subject><subject>Biological and medical sciences</subject><subject>Brain - physiology</subject><subject>Brain electrical topography</subject><subject>Brain Mapping</subject><subject>Discrimination (Psychology) - physiology</subject><subject>Electrophysiology</subject><subject>Evoked Potentials, Visual - physiology</subject><subject>Female</subject><subject>Fundamental and applied biological sciences. 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subjects	Adult Behavioral psychophysiology Biological and medical sciences Brain - physiology Brain electrical topography Brain Mapping Discrimination (Psychology) - physiology Electrophysiology Evoked Potentials, Visual - physiology Female Fundamental and applied biological sciences. Psychology Humans Learning - physiology Male Perception - physiology Perceptual learning Psychology. Psychoanalysis. Psychiatry Psychology. Psychophysiology Psychophysics Psychophysics - methods Sensory Thresholds - physiology Visual Acuity - physiology Visual evoked potential (VEP)
title	Perceptual learning: psychophysical thresholds and electrical brain topography
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