scholarly article | Q13442814 |
P50 | author | David Melcher | Q30507909 |
P2093 | author name string | Kowler E | |
P2860 | cites work | The roles of contour and luminance distribution in determining perceived centers within shapes | Q71715876 |
The architecture of perceptual spatial interactions | Q72262789 | ||
Fourth Purkinje image signals reveal eye-lens deviations and retinal image distortions during saccades | Q72654053 | ||
The spatial signal for saccadic eye movements emphasizes visual boundaries | Q72834192 | ||
Medial-point description of shape: a representation for action coding and its psychophysical correlates | Q77496200 | ||
The role of visual attention in saccadic eye movements | Q28296056 | ||
The role of attention in the programming of saccades | Q28296532 | ||
Contour integration by the human visual system: evidence for a local "association field". | Q34361427 | ||
A closed curve is much more than an incomplete one: effect of closure in figure-ground segmentation | Q36473738 | ||
Miniature eye movement | Q36506827 | ||
The role of location probability in the programming of saccades: implications for "center-of-gravity" tendencies | Q41254920 | ||
The effect of expectations on slow oculomotor control--IV. Anticipatory smooth eye movements depend on prior target motions | Q41434631 | ||
Reducing the influence of non-target stimuli on saccade accuracy: predictability and latency effects | Q41456336 | ||
An exponential pyramid model of the time-course of size processing | Q47356470 | ||
The effect of expectations on slow oculomotor control—II. Single target displacements | Q48116196 | ||
Eye movements elicited by transparent stimuli | Q48213435 | ||
Latency dependence of colour-based target vs nontarget discrimination by the saccadic system | Q49172313 | ||
Evidence for a range effect in the saccadic system. | Q50804039 | ||
Global visual processing for saccadic eye movements. | Q50848430 | ||
Accurate three-dimensional eyetracker. | Q50850059 | ||
A center-of-mass computation describes the precision of random dot displacement discrimination | Q51654123 | ||
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Perceptual sensitivity maps within globally defined visual shapes. | Q52057008 | ||
Preattentive filling-in of visual surfaces in parietal extinction. | Q52196650 | ||
Localization of element clusters: multiple cues. | Q52201708 | ||
The accuracy and precision of saccades to small and large targets | Q52208000 | ||
The effect of suprathreshold contrast on stimulus centroid and its implications for the perceived location of objects. | Q52226985 | ||
Saccadic localization of random dot targets. | Q52241715 | ||
Curvilinearity, covariance, and regularity in perceptual groups. | Q52249481 | ||
Curve detection in a noisy image. | Q52265349 | ||
Object representation by cores: Identifying and representing primitive spatial regions | Q52336940 | ||
Biases and sensitivities in geometrical illusions. | Q52866137 | ||
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Biological shape and visual science (part I) | Q52952273 | ||
The location of noisy visual stimuli. | Q54209513 | ||
Psychophysical and saccadic information about direction for briefly presented visual targets | Q67596653 | ||
Centroid evaluation in the vernier alignment of random dot clusters | Q68034385 | ||
Scanning from coarse to fine spatial scales in the human visual system after the onset of a stimulus | Q68540248 | ||
Exposure-duration effects in localization judgments | Q69666148 | ||
Effect of Non-Target Stimuli upon Length of Voluntary Saccades | Q70456860 | ||
Slow control with eccentric targets: evidence against a position-corrective model | Q70594731 | ||
P433 | issue | 17 | |
P304 | page(s) | 2929-2946 | |
P577 | publication date | 1999-08-01 | |
P1433 | published in | Vision Research | Q1307852 |
P1476 | title | Shapes, surfaces and saccades. | |
P478 | volume | 39 |
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Q47351016 | Adaptation of Saccades and Perceived Size after Trans-Saccadic Changes of Object Size |
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