Indexed keywords
ARTICLE;
BINOCULAR VISION;
CONTROLLED STUDY;
DEPTH PERCEPTION;
HUMAN;
HUMAN EXPERIMENT;
LUMINANCE;
PRIORITY JOURNAL;
TASK PERFORMANCE;
VISION;
VISUAL DISCRIMINATION;
VISUAL ORIENTATION;
VISUAL STIMULATION;
ASSOCIATION;
DIFFERENTIAL THRESHOLD;
PATTERN RECOGNITION;
PHYSIOLOGY;
CUES;
DEPTH PERCEPTION;
DIFFERENTIAL THRESHOLD;
FORM PERCEPTION;
HUMANS;
PATTERN RECOGNITION, VISUAL;
VISION DISPARITY;
VISION, BINOCULAR;
1
0024850548
Integration of stereo and texture cues in the formation of discontinuities during three-dimensional surface interpolation
Buckley D., Frisby J.B., Mayhew J.E. Integration of stereo and texture cues in the formation of discontinuities during three-dimensional surface interpolation. Perception. 18:1989;563-588.
(1989)
Perception , vol.18
, pp. 563-588
Buckley, D.1
Frisby, J.B.2
Mayhew, J.E.3
2
0026508448
The coding of spatial position by the human visual system: Effects of spatial scale and contrast
Hess R.F., Holliday I.E. The coding of spatial position by the human visual system: effects of spatial scale and contrast. Vision Research. 32:1992;1085-1097.
(1992)
Vision Research , vol.32
, pp. 1085-1097
Hess, R.F.1
Holliday, I.E.2
3
0027943125
Discrimination of position and contrast in amblyopic and peripheral vision
Levi D.M., Klein S.A., Wang H. Discrimination of position and contrast in amblyopic and peripheral vision. Vision Research. 34:1994;3293-3313.
(1994)
Vision Research , vol.34
, pp. 3293-3313
Levi, D.M.1
Klein, S.A.2
Wang, H.3
4
0031708428
How much of the visual object is used in estimating its position?
Kontsevich L.L., Tyler C.W. How much of the visual object is used in estimating its position? Vision Research. 38:1998;3025-3029.
(1998)
Vision Research , vol.38
, pp. 3025-3029
Kontsevich, L.L.1
Tyler, C.W.2
5
0033001361
Bayesian adaptive estimation of psychometric slope and threshold
Kontsevich L.L., Tyler C.W. Bayesian adaptive estimation of psychometric slope and threshold. Vision Research. 39:1999;2729-2737.
(1999)
Vision Research , vol.39
, pp. 2729-2737
Kontsevich, L.L.1
Tyler, C.W.2
6
0003834557
San Francisco: Freeman
Marr D. Vision. 1982;Freeman, San Francisco.
(1982)
Vision
Marr, D.1
7
1542661773
Mechanisms of interpolation in human spatial vision
Morgan M.J., Watt R.J. Mechanisms of interpolation in human spatial vision. Vision Research. 25:1982;1661-1674.
(1982)
Vision Research , vol.25
, pp. 1661-1674
Morgan, M.J.1
Watt, R.J.2
8
0021027929
On the failure of spatiotemporal interpolation: A filtering model
Morgan M.J., Watt R.J. On the failure of spatiotemporal interpolation: a filtering model. Vision Research. 23:1983;997-1004.
(1983)
Vision Research , vol.23
, pp. 997-1004
Morgan, M.J.1
Watt, R.J.2
9
0023816980
Differential spatial displacement discrimination thresholds for Gabor patches
Toet A., Koenderink J.J. Differential spatial displacement discrimination thresholds for Gabor patches. Vision Research. 28:1988;133-143.
(1988)
Vision Research , vol.28
, pp. 133-143
Toet, A.1
Koenderink, J.J.2
10
0030220694
Saturation revealed by clamping the gain of the retinal light response
Tyler C.W., Liu L. Saturation revealed by clamping the gain of the retinal light response. Vision Research. 36:1996;2553-2562.
(1996)
Vision Research , vol.36
, pp. 2553-2562
Tyler, C.W.1
Liu, L.2
11
0039288296
Diffuse illumination as a default assumption for shape-from-shading in the absence of shadows
Tyler C.W. Diffuse illumination as a default assumption for shape-from-shading in the absence of shadows. Journal of Imaging Science and Technology. 42:1997;319-325.
(1997)
Journal of Imaging Science and Technology , vol.42
, pp. 319-325
Tyler, C.W.1
12
0024333908
Depth interpolation with sparse disparity cues
Würger S.M., Landy M.S. Depth interpolation with sparse disparity cues. Perception. 18:1989;39-54.
(1989)
Perception , vol.18
, pp. 39-54
Würger, S.M.1
Landy, M.S.2
13
0028964329
On the interpolation of surface reconstruction from disparity interpolation
Yang Y., Blake R. On the interpolation of surface reconstruction from disparity interpolation. Vision Research. 35:1995;949-960.
(1995)
Vision Research , vol.35
, pp. 949-960
Yang, Y.1
Blake, R.2
