scholarly article | Q13442814 |
P2093 | author name string | Dov Sagi | |
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Perceptual learning modulates electrophysiological and psychophysical response to visual texture segmentation in humans. | Q52086397 | ||
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Learning strengthens the response of primary visual cortex to simple patterns. | Q52091003 | ||
Perceptual learning improves efficiency by re-tuning the decision 'template' for position discrimination. | Q52094853 | ||
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Contrast masking effects change with practice. | Q52193717 | ||
Practising orientation identification improves orientation coding in V1 neurons. | Q34085764 | ||
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Physiological correlates of perceptual learning in monkey V1 and V2. | Q34121769 | ||
Psychophysics: Is subliminal learning really passive? | Q34181946 | ||
Action video game modifies visual selective attention | Q34201200 | ||
Sleep-dependent learning: a nap is as good as a night | Q34207803 | ||
The neurobiology of consolidations, or, how stable is the engram? | Q34292548 | ||
Dependence on REM sleep of overnight improvement of a perceptual skill | Q34330578 | ||
The neural basis of perceptual learning | Q34376838 | ||
Spatial frequency discrimination learning in normal and developmentally impaired human vision. | Q34382070 | ||
Consolidation in human motor memory | Q34389627 | ||
Neural correlates of perceptual learning: a functional MRI study of visual texture discrimination | Q34431090 | ||
The dynamics of perceptual learning: an incremental reweighting model | Q34464359 | ||
Perceptual learning and top-down influences in primary visual cortex | Q34546067 | ||
Complete transfer of perceptual learning across retinal locations enabled by double training | Q34606933 | ||
Brain plasticity in the adult: modulation of function in amblyopia with rTMS. | Q34797391 | ||
Interference and feature specificity in visual perceptual learning | Q34996300 | ||
Training induces changes in white-matter architecture | Q35007455 | ||
Spatial interactions in human vision: from near to far via experience-dependent cascades of connections | Q35033551 | ||
Late maturation of visual spatial integration in humans | Q35737467 | ||
A feedforward architecture accounts for rapid categorization | Q35741111 | ||
Neural networks and perceptual learning | Q35918039 | ||
Specificity of perceptual learning increases with increased training | Q35942409 | ||
Attentional control of early perceptual learning | Q36372185 | ||
A closed curve is much more than an incomplete one: effect of closure in figure-ground segmentation | Q36473738 | ||
Broad bandwidth of perceptual learning in the visual system of adults with anisometropic amblyopia | Q36499301 | ||
A perceptual memory for low-contrast visual signals | Q36532780 | ||
Learning to link visual contours | Q36692907 | ||
Task precision at transfer determines specificity of perceptual learning | Q37134856 | ||
Neural mechanisms of recovery following early visual deprivation | Q37172581 | ||
Improving the performance of the amblyopic visual system | Q37172587 | ||
Critical period revisited: impact on vision. | Q37183794 | ||
Perceptual plasticity in damaged adult visual systems | Q37200918 | ||
Different dynamics of performance and brain activation in the time course of perceptual learning | Q37326575 | ||
Flexible learning of natural statistics in the human brain | Q37353180 | ||
Location-specific cortical activation changes during sleep after training for perceptual learning | Q37371119 | ||
Learning sculpts the spontaneous activity of the resting human brain | Q37389061 | ||
Prolonged perceptual learning of positional acuity in adult amblyopia: perceptual template retuning dynamics | Q37395633 | ||
Enrich the environment to empower the brain. | Q37408480 | ||
Breakdown of effective connectivity during slow wave sleep: investigating the mechanism underlying a cortical gate using large-scale modeling | Q37420264 | ||
Interocular transfer in perceptual learning of a pop-out discrimination task | Q37504623 | ||
Perceptual learning and adult cortical plasticity | Q37519026 | ||
Where practice makes perfect in texture discrimination: evidence for primary visual cortex plasticity | Q37527112 | ||
Neural plasticity in adults with amblyopia | Q37546098 | ||
How much practice is needed to produce perceptual learning? | Q37588799 | ||
Plasticity and stability of visual field maps in adult primary visual cortex | Q37630921 | ||
Perceptual learning rules based on reinforcers and attention | Q37671244 | ||
Perceptual learning: functions, mechanisms, and applications | Q39884175 | ||
Task-irrelevant learning occurs only when the irrelevant feature is weak | Q40604396 | ||
A four mechanism model for threshold spatial vision | Q41432035 | ||
The role of early visual cortex in visual short-term memory and visual attention. | Q41472594 | ||
Practice improves adults' sensitivity to diagonals | Q41608556 | ||
Excitatory and inhibitory interactions in localized populations of model neurons | Q41637623 | ||
Perceptual learning | Q41718848 | ||
Modeling mechanisms of perceptual learning with augmented Hebbian re-weighting | Q42913025 | ||
Introduction. Sensory learning: from neural mechanisms to rehabilitation | Q43139273 | ||
Decoupling location specificity from perceptual learning of orientation discrimination | Q43283869 | ||
Spatial frequency adaptation can enhance contrast sensitivity | Q43911349 | ||
Neuronal responses to static texture patterns in area V1 of the alert macaque monkey | Q43960085 | ||
Perceptual learning of luminance contrast detection: specific for spatial frequency and retinal location but not orientation | Q44014601 | ||
Improvement in vernier acuity with practice | Q44160472 | ||
Detection of an orientation singularity in Gabor textures: effect of signal density and spatial-frequency | Q44475633 | ||
Fast perceptual learning in visual hyperacuity | Q44712446 | ||
Perceptual learning in contrast discrimination and the (minimal) role of context | Q44845841 | ||
Learning motion discrimination with suppressed and un-suppressed MT. | Q45236910 | ||
Global resistance to local perceptual adaptation in texture discrimination | Q46066859 | ||
Abrupt learning and retinal size specificity in illusory-contour perception | Q47306436 | ||
On the existence of neurones in the human visual system selectively sensitive to the orientation and size of retinal images | Q47394971 | ||
Size-Detecting Mechanisms in Human Vision | Q47398732 | ||
No transfer of perceptual learning between similar stimuli in the same retinal position. | Q52202479 | ||
Three remarks on perceptual learning. | Q52203659 | ||
Fast perceptual learning in hyperacuity. | Q52205167 | ||
Human perceptual learning in identifying the oblique orientation: retinotopy, orientation specificity and monocularity. | Q52209478 | ||
Neurophysiological correlates of perceptual learning in the human brain. | Q52220752 | ||
The time course of learning a visual skill. | Q52222874 | ||
Long-term learning in vernier acuity: effects of stimulus orientation, range and of feedback. | Q52227327 | ||
Some results on translation invariance in the human visual system. | Q52243660 | ||
Direction-specific improvement in motion discrimination. | Q52258245 | ||
Spatial frequency masking and Weber's Law. | Q52283126 | ||
Effects of practice and the separation of test targets on foveal and peripheral stereoacuity. | Q52283173 | ||
Learning in grating waveform discrimination: Specificity for orientation and spatial frequency | Q52295155 | ||
Perceptual learning specific for orientation and spatial frequency. | Q52297209 | ||
Orientation-specific learning in stereopsis. | Q52322951 | ||
The time course of adaptation to spatial contrast. | Q52460370 | ||
Texture-Based Tasks are Little Affected by Second Tasks Requiring Peripheral or Central Attentive Fixation | Q52464630 | ||
Spatial variability as a limiting factor in texture-discrimination tasks: implications for performance asymmetries. | Q52474173 | ||
Experience-dependent recovery of vision following chronic deprivation amblyopia. | Q53564771 | ||
A law of comparative judgment | Q55899510 | ||
Cortical binocularity in infants | Q59076944 | ||
Parallel versus serial processing in rapid pattern discrimination | Q59095047 | ||
Short-range limitation on detection of feature differences | Q67271637 | ||
The combination of spatial frequency and orientation is effortlessly perceived | Q68457488 | ||
Postadaptation orientation discrimination | Q70062170 | ||
Intrinsic laminar lattice connections in primate visual cortex | Q70149471 | ||
A specific and enduring improvement in visual motion discrimination | Q70495884 | ||
Lateral interactions between spatial channels: suppression and facilitation revealed by lateral masking experiments | Q70748422 | ||
Discrimination at threshold: Labelled detectors in human vision | Q71019766 | ||
Phi movement as a subtraction process | Q71692597 | ||
The architecture of perceptual spatial interactions | Q72262789 | ||
Clustered intrinsic connections in cat visual cortex | Q72695444 | ||
Abnormal long-range spatial interactions in amblyopia | Q73348735 | ||
Attentional demands following perceptual skill training | Q73731957 | ||
MOVEMENT-PRODUCED STIMULATION IN THE DEVELOPMENT OF VISUALLY GUIDED BEHAVIOR | Q76510481 | ||
A saliency map in primary visual cortex | Q77647779 | ||
Experiments with Goggles | Q78960598 | ||
Perceptual learning in monocular pattern masking: experiments and explanations by the twin summation gain control model of contrast processing | Q79889445 | ||
The essential role of stimulus temporal patterning in enabling perceptual learning | Q81345940 | ||
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P433 | issue | 13 | |
P304 | page(s) | 1552-1566 | |
P577 | publication date | 2010-10-23 | |
P1433 | published in | Vision Research | Q1307852 |
P1476 | title | Perceptual learning in Vision Research | |
P478 | volume | 51 |
Q30826172 | "Global" visual training and extent of transfer in amblyopic macaque monkeys |
Q48625012 | 50th anniversary special issue of Vision Research--volume 2. |
Q36805750 | A New Visual Stimulation Program for Improving Visual Acuity in Children with Visual Impairment: A Pilot Study. |
Q104758319 | A behavioral training protocol using visual perceptual learning to improve a visual skill |
Q99562376 | A decision-time account of individual variability in context-dependent orientation estimation |
Q27303008 | A dichoptic custom-made action video game as a treatment for adult amblyopia |
Q42351550 | A dissociation between consolidated perceptual learning and sensory adaptation in vision |
Q26997986 | About similar characteristics of visual perceptual learning and LTP |
Q57843702 | Abstract |
Q30603910 | Action video game play facilitates the development of better perceptual templates |
Q37040736 | Adaptable history biases in human perceptual decisions. |
Q28740887 | Adaptation and visual coding |
Q42338973 | Adaptation in the visual cortex: a case for probing neuronal populations with natural stimuli |
Q30451778 | Adult visual cortical plasticity |
Q36178580 | Aging and Vision: Changes in Function and Performance from Optics to Perception |
Q30664575 | Alpha-band EEG activity in perceptual learning |
Q92252338 | An investigation of far and near transfer in a gamified visual learning paradigm |
Q38264121 | Applying perceptual learning to achieve practical changes in vision |
Q64058365 | Assessing the detailed time course of perceptual sensitivity change in perceptual learning |
Q57819877 | Asymmetric perceptual confounds between canonical lightings and materials |
Q30392605 | Auditory Discrimination Learning: Role of Working Memory |
Q36124774 | Augmented Hebbian reweighting accounts for accuracy and induced bias in perceptual learning with reverse feedback |
Q34091155 | Beyond blindsight: properties of visual relearning in cortically blind fields |
Q92324283 | Boosting Learning Efficacy with Noninvasive Brain Stimulation in Intact and Brain-Damaged Humans |
Q92727405 | Category-Induced Transfer of Visual Perceptual Learning |
Q27304666 | Chromatic Perceptual Learning but No Category Effects without Linguistic Input |
Q42141741 | Co-learning analysis of two perceptual learning tasks with identical input stimuli supports the reweighting hypothesis |
Q88792462 | Deep Neural Networks for Modeling Visual Perceptual Learning |
Q37348355 | Developing the Own-Race Advantage in 4-, 6-, and 9-Month-Old Taiwanese Infants: A Perceptual Learning Perspective |
Q36662995 | Differences in the time course of learning for hard compared to easy training. |
Q34477938 | Differential effects of visual feedback on subjective visual vertical accuracy and precision |
Q33952103 | Dissociable processes for orientation discrimination learning and contextual illusion magnitude |
Q41269864 | Donepezil Does Not Enhance Perceptual Learning in Adults with Amblyopia: A Pilot Study |
Q26779354 | Dual mechanisms governing reward-driven perceptual learning |
Q35505426 | Editorial: Improving visual deficits with perceptual learning. |
Q89730767 | Effects of Monocular Perceptual Learning on Binocular Visual Processing in Adolescent and Adult Amblyopia |
Q37458539 | Effects of combining 2 weeks of passive sensory stimulation with active hand motor training in healthy adults. |
Q48904643 | Effects of face view discrimination learning on N170 latency and amplitude. |
Q50597728 | Effects of spatiotemporal consistencies on visual learning dynamics and transfer. |
Q58595244 | Efficient Assessment of the Time Course of Perceptual Sensitivity Change |
Q37127487 | Electrical Stimulation of Visual Cortex Can Immediately Improve Spatial Vision |
Q57819885 | Endogenous spatial attention during perceptual learning facilitates location transfer |
Q35999463 | Enhanced tactile acuity through mental states |
Q92025310 | Evaluating the performance of the staircase and quick Change Detection methods in measuring perceptual learning |
Q36415155 | Exogenous Attention Enables Perceptual Learning |
Q30666966 | Exogenous attention facilitates location transfer of perceptual learning |
Q34075469 | Facial expression training optimises viewing strategy in children and adults |
Q47916045 | Feature reliability determines specificity and transfer of perceptual learning in orientation search. |
Q57785357 | GABA, not BOLD, reveals dissociable learning-dependent plasticity mechanisms in the human brain |
Q40738504 | Gains following perceptual learning are closely linked to the initial visual acuity |
Q37207521 | Generalization of perceptual and motor learning: a causal link with memory encoding and consolidation? |
Q36115978 | How is a motor skill learned? Change and invariance at the levels of task success and trajectory control |
Q92093026 | Improved fidelity of orientation perception: a learning effect dissociable from enhanced discriminability |
Q30572489 | Improved vision and on-field performance in baseball through perceptual learning |
Q42113040 | Improvement of uncorrected visual acuity and contrast sensitivity with perceptual learning and transcranial random noise stimulation in individuals with mild myopia. |
Q50646118 | Improving myopia via perceptual learning: is training with lateral masking the only (or the most) efficacious technique? |
Q42175463 | Improving visual functions in adult amblyopia with combined perceptual training and transcranial random noise stimulation (tRNS): a pilot study |
Q55287043 | Individual differences in perceptual abilities in medical imaging: the Vanderbilt Chest Radiograph Test. |
Q26863430 | Informatics in radiology: what can you see in a single glance and how might this guide visual search in medical images? |
Q64064688 | Laws of concatenated perception: Vision goes for novelty, decisions for perseverance |
Q50483343 | Learning Specificity and Segmentation Strategies: Misconceptions Regarding Computerized-Cognitive Training Programs. |
Q36294673 | Learning one task by interleaving practice with another task |
Q50790623 | Learning to be fast: gain accuracy with speed. |
Q38671212 | Learning to see again: biological constraints on cortical plasticity and the implications for sight restoration technologies. |
Q26822864 | Learning what to expect (in visual perception) |
Q30433681 | Learning, worsening, and generalization in response to auditory perceptual training during adolescence |
Q28658919 | Location specific sleep spindle activity in the early visual areas and perceptual learning |
Q38688219 | Long-term motor learning: Effects of varied and specific practice |
Q48463891 | Low-frequency stimulation depresses the primate anterior-cingulate-cortex and prevents spontaneous recovery of aversive memories. |
Q50456517 | Memory and learning for visual signals in time and space. |
Q41287967 | Mixture of easy trials enables transient and sustained perceptual improvements through priming and perceptual learning. |
Q90334374 | Moderating effects of visual attention and action video game play on perceptual learning with the texture discrimination task |
Q39622018 | Monetary loss alters perceptual thresholds and compromises future decisions via amygdala and prefrontal networks |
Q45960036 | Neogenomic events challenge current models of heritability, neuronal plasticity dynamics, and machine learning. |
Q46047497 | Neural mechanisms of motion perceptual learning in noise |
Q30805209 | Neuroimaging Evidence for 2 Types of Plasticity in Association with Visual Perceptual Learning |
Q42467315 | New insights in the limbic modulation of visual inputs: the role of the inferior longitudinal fasciculus and the Li-Am bundle |
Q98184971 | Ocular Dominance Plasticity: molecular mechanisms revisited |
Q38363422 | Optimization of visual training for full recovery from severe amblyopia in adults |
Q35877597 | Orientation Transfer in Vernier and Stereoacuity Training |
Q50527311 | Over-generalization in youth with anxiety disorders. |
Q42320201 | Overlearning hyperstabilizes a skill by rapidly making neurochemical processing inhibitory-dominant |
Q30386339 | Pairing Cholinergic Enhancement with Perceptual Training Promotes Recovery of Age-Related Changes in Rat Primary Auditory Cortex |
Q41995173 | Perceptual learning and aging: improved performance for low-contrast motion discrimination |
Q33357334 | Perceptual learning as a possible new approach for remediation and prevention of developmental dyslexia |
Q50430548 | Perceptual learning improves contrast sensitivity, visual acuity, and foveal crowding in amblyopia. |
Q50344272 | Perceptual learning in autism: over-specificity and possible remedies. |
Q34359807 | Perceptual learning in patients with macular degeneration |
Q46395607 | Perceptual learning leads to long lasting visual improvement in patients with central vision loss |
Q36930968 | Perceptual learning modifies the functional specializations of visual cortical areas |
Q33860967 | Perceptual learning modifies untrained pursuit eye movements |
Q97686957 | Perceptual learning of motion direction discrimination: Location specificity and the uncertain roles of dorsal and ventral areas |
Q36553917 | Perceptual learning of second order cues for layer decomposition. |
Q50672728 | Perceptual learning of simple stimuli modifies stimulus representations in posterior inferior temporal cortex. |
Q61798276 | Perceptual learning of task-irrelevant features depends on the sensory context |
Q27320713 | Perceptual learning shapes multisensory causal inference via two distinct mechanisms |
Q49579882 | Perceptual learning while preparing saccades. |
Q51841084 | Perceptual learning, roving and the unsupervised bias. |
Q33981055 | Perceptual learning--the past, present and future |
Q38253886 | Perceptual learning: toward a comprehensive theory |
Q48560066 | Perceptual training continuously refines neuronal population codes in primary visual cortex. |
Q38160865 | Plasticity in the human visual cortex: an ophthalmology-based perspective. |
Q85636882 | Practice makes perfect |
Q24609044 | Prentice award lecture 2011: removing the brakes on plasticity in the amblyopic brain |
Q42280362 | Rapid and long-lasting learning of feature binding |
Q36345518 | Rapid and long-lasting reduction of crowding through training |
Q38157912 | Recent progress in perceptual learning research |
Q27307810 | Reduction in the retinotopic early visual cortex with normal aging and magnitude of perceptual learning |
Q37533137 | Rehabilitation Approaches in Macular Degeneration Patients |
Q36652911 | Response feedback triggers long-term consolidation of perceptual learning independently of performance gains |
Q42371911 | Response: Commentary: Perceptual learning in autism: over-specificity and possible remedies |
Q33804054 | Sensory experience during locomotion promotes recovery of function in adult visual cortex |
Q35708825 | Socio-cognitive profiles for visual learning in young and older adults. |
Q48939481 | Spatiotopic perceptual learning mediated by retinotopic processing and attentional remapping. |
Q101476324 | Speech in noise perception improved by training fine auditory discrimination: far and applicable transfer of perceptual learning |
Q34460690 | Stereopsis and amblyopia: A mini-review |
Q50501686 | Target-selective tilt aftereffect during texture learning. |
Q34259856 | Task attention facilitates learning of task-irrelevant stimuli |
Q35583281 | Task relevancy and demand modulate double-training enabled transfer of perceptual learning |
Q35082174 | Task-specific response strategy selection on the basis of recent training experience |
Q92593454 | Testing the visual field of children and adults with Rarebit: The role of task repetition on sensitivity |
Q47827004 | The Best of Both Worlds: Adaptation During Natural Tasks Produces Long-Lasting Plasticity in Perceptual Ocular Dominance |
Q59811715 | The Virtual-Environment-Foraging Task enables rapid training and single-trial metrics of attention in head-fixed mice |
Q36981657 | The absolute disparity anomaly and the mechanism of relative disparities |
Q36881870 | The benefits of cholinergic enhancement during perceptual learning are long-lasting |
Q34441693 | The challenges of developing a contrast-based video game for treatment of amblyopia |
Q38234916 | The development of contour processing: evidence from physiology and psychophysics |
Q58577428 | The effect of LTP- and LTD-like visual stimulation on modulation of human orientation discrimination |
Q38436534 | The hard-won benefits of familiarity in visual search: naturally familiar brand logos are found faster |
Q37697621 | The role of alpha-rhythm states in perceptual learning: insights from experiments and computational models. |
Q49865267 | Towards a whole brain model of Perceptual Learning. |
Q43042565 | Training improves visual processing speed and generalizes to untrained functions. |
Q36886314 | Training of binocular rivalry suppression suggests stimulus-specific plasticity in monocular and binocular visual areas. |
Q36169490 | Transfer in Rule-Based Category Learning Depends on the Training Task |
Q35071099 | Transfer of learning between hemifields in multiple object tracking: memory reduces constraints of attention |
Q38005685 | Transformative art: art as means for long-term neurocognitive change |
Q41496373 | Translating Perceptual Learning from the Laboratory to Applications. |
Q26850025 | Two-stage model in perceptual learning: toward a unified theory |
Q46175005 | Untutored discrimination training on paired cell images influences visual learning in cytopathology |
Q36978094 | V3A takes over a job of MT+ after training on a visual task |
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