Dongho Kim scite author profile

Summary The study of human learning is complicated by the myriad of processing elements involved in conducting any behavioural task. In the case of visual perceptual learning there has been significant controversy regarding the task-processes that guide the formation of this learning, however, there is a developing consensus that top-down, task-related factors, are required for such learning to take place. Here we challenge this idea by use of a novel procedure in which human participants, who were deprived of food and water, passively viewed visual stimuli while receiving occasional drops of water as rewards. Visual orientation stimuli, which were temporally paired with the liquid-rewards, were viewed monocularly and rendered imperceptible by continuously flashing contour rich patterns to the other eye. Results show that visual learning can be formed in human adults through stimulus-reward pairing in the absence of a task and without awareness of the stimulus presentation or reward contingencies.

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Decoding Reveals Plasticity in V3A as a Result of Motion Perceptual Learning

Shibata

Chang

Kim

et al. 2012

PLoS ONE

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Visual perceptual learning (VPL) is defined as visual performance improvement after visual experiences. VPL is often highly specific for a visual feature presented during training. Such specificity is observed in behavioral tuning function changes with the highest improvement centered on the trained feature and was originally thought to be evidence for changes in the early visual system associated with VPL. However, results of neurophysiological studies have been highly controversial concerning whether the plasticity underlying VPL occurs within the visual cortex. The controversy may be partially due to the lack of observation of neural tuning function changes in multiple visual areas in association with VPL. Here using human subjects we systematically compared behavioral tuning function changes after global motion detection training with decoded tuning function changes for 8 visual areas using pattern classification analysis on functional magnetic resonance imaging (fMRI) signals. We found that the behavioral tuning function changes were extremely highly correlated to decoded tuning function changes only in V3A, which is known to be highly responsive to global motion with human subjects. We conclude that VPL of a global motion detection task involves plasticity in a specific visual cortical area.

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Visual perceptual learning by operant conditioning training follows rules of contingency

2015

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Visual perceptual learning (VPL) can occur as a result of a repetitive stimulus-reward pairing in the absence of any task. This suggests that rules that guide Conditioning, such as stimulus-reward contingency (e.g. that stimulus predicts the likelihood of reward), may also guide the formation of VPL. To address this question, we trained subjects with an operant conditioning task in which there were contingencies between the response to one of three orientations and the presence of reward. Results showed that VPL only occurred for positive contingencies, but not for neutral or negative contingencies. These results suggest that the formation of VPL is influenced by similar rules that guide the process of Conditioning.

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Dongho Kim

Rewards Evoke Learning of Unconsciously Processed Visual Stimuli in Adult Humans

Decoding Reveals Plasticity in V3A as a Result of Motion Perceptual Learning

Visual perceptual learning by operant conditioning training follows rules of contingency

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