A Johnston, P W McOwan, H Buxton. Proc Biol Sci 1992
Times Cited: 129
Times Cited: 129
Times Cited
Times Co-cited
Similarity
Spatiotemporal energy models for the perception of motion.
E H Adelson, J R Bergen. J Opt Soc Am A 1985
E H Adelson, J R Bergen. J Opt Soc Am A 1985
63
Drift-balanced random stimuli: a general basis for studying non-Fourier motion perception.
C Chubb, G Sperling. J Opt Soc Am A 1988
C Chubb, G Sperling. J Opt Soc Am A 1988
60
A psychophysically motivated model for two-dimensional motion perception.
H R Wilson, V P Ferrera, C Yo. Vis Neurosci 1992
H R Wilson, V P Ferrera, C Yo. Vis Neurosci 1992
47
The functional architecture of human visual motion perception.
Z L Lu, G Sperling. Vision Res 1995
Z L Lu, G Sperling. Vision Res 1995
42
Evidence for separate motion-detecting mechanisms for first- and second-order motion in human vision.
T Ledgeway, A T Smith. Vision Res 1994
T Ledgeway, A T Smith. Vision Res 1994
34
Perceived motion of contrast-modulated gratings: predictions of the multi-channel gradient model and the role of full-wave rectification.
A Johnston, C W Clifford. Vision Res 1995
A Johnston, C W Clifford. Vision Res 1995
50
Separate detection of moving luminance and contrast modulations: fact or artifact?
A T Smith, T Ledgeway. Vision Res 1997
A T Smith, T Ledgeway. Vision Res 1997
26
A processing stream in mammalian visual cortex neurons for non-Fourier responses.
Y X Zhou, C L Baker. Science 1993
Y X Zhou, C L Baker. Science 1993
26
Separate detectors for simple and complex grating patterns?
A M Derrington, D R Badcock. Vision Res 1985
A M Derrington, D R Badcock. Vision Res 1985
25
Dual multiple-scale processing for motion in the human visual system.
S Nishida, T Ledgeway, M Edwards. Vision Res 1997
S Nishida, T Ledgeway, M Edwards. Vision Res 1997
25
Three-systems theory of human visual motion perception: review and update.
Z L Lu, G Sperling. J Opt Soc Am A Opt Image Sci Vis 2001
Z L Lu, G Sperling. J Opt Soc Am A Opt Image Sci Vis 2001
24
Does early non-linearity account for second-order motion?
N E Scott-Samuel, M A Georgeson. Vision Res 1999
N E Scott-Samuel, M A Georgeson. Vision Res 1999
27
21
46
20
Central neural mechanisms for detecting second-order motion.
C L Baker. Curr Opin Neurobiol 1999
C L Baker. Curr Opin Neurobiol 1999
20
31
Position displacement, not velocity, is the cue to motion detection of second-order stimuli.
A E Seiffert, P Cavanagh. Vision Res 1998
A E Seiffert, P Cavanagh. Vision Res 1998
24
Impairment of the perception of second order motion but not first order motion in a patient with unilateral focal brain damage.
L M Vaina, A Cowey. Proc Biol Sci 1996
L M Vaina, A Cowey. Proc Biol Sci 1996
20
Discriminating the direction of second-order motion at short stimulus durations.
A M Derrington, D R Badcock, G B Henning. Vision Res 1993
A M Derrington, D R Badcock, G B Henning. Vision Res 1993
17
Processing of first- and second-order motion signals by neurons in area MT of the macaque monkey.
L P O'Keefe, J A Movshon. Vis Neurosci 1998
L P O'Keefe, J A Movshon. Vis Neurosci 1998
17
The processing of first- and second-order motion in human visual cortex assessed by functional magnetic resonance imaging (fMRI).
A T Smith, M W Greenlee, K D Singh, F M Kraemer, J Hennig. J Neurosci 1998
A T Smith, M W Greenlee, K D Singh, F M Kraemer, J Hennig. J Neurosci 1998
17
Motion aftereffect with flickering test patterns reveals higher stages of motion processing.
S Nishida, T Sato. Vision Res 1995
S Nishida, T Sato. Vision Res 1995
16
16
The VideoToolbox software for visual psychophysics: transforming numbers into movies.
D G Pelli. Spat Vis 1997
D G Pelli. Spat Vis 1997
16
Perception of first- and second-order motion: separable neurological mechanisms?
L M Vaina, A Cowey, D Kennedy. Hum Brain Mapp 1999
L M Vaina, A Cowey, D Kennedy. Hum Brain Mapp 1999
26
71
Detection and discrimination of first- and second-order motion in patients with unilateral brain damage.
M W Greenlee, A T Smith. J Neurosci 1997
M W Greenlee, A T Smith. J Neurosci 1997
21
Second-order motion discrimination by feature-tracking.
A M Derrington, O I Ukkonen. Vision Res 1999
A M Derrington, O I Ukkonen. Vision Res 1999
38
Motion of contrast-modulated gratings is analysed by different mechanisms at low and at high contrasts.
O I Ukkonen, A M Derrington. Vision Res 2000
O I Ukkonen, A M Derrington. Vision Res 2000
70
Motion defined exclusively by second-order characteristics does not evoke optokinetic nystagmus.
L R Harris, A T Smith. Vis Neurosci 1992
L R Harris, A T Smith. Vis Neurosci 1992
23
Directional selectivity and its use in early visual processing.
D Marr, S Ullman. Proc R Soc Lond B Biol Sci 1981
D Marr, S Ullman. Proc R Soc Lond B Biol Sci 1981
13
13
68
Temporal covariance model of human motion perception.
J P van Santen, G Sperling. J Opt Soc Am A 1984
J P van Santen, G Sperling. J Opt Soc Am A 1984
13
Sensitivity to second-order motion as a function of temporal frequency and eccentricity.
A T Smith, T Ledgeway. Vision Res 1998
A T Smith, T Ledgeway. Vision Res 1998
23
Position-based motion perception for color and texture stimuli: effects of contrast and speed.
A E Seiffert, P Cavanagh. Vision Res 1999
A E Seiffert, P Cavanagh. Vision Res 1999
20
Functional MRI studies of human visual motion perception: texture, luminance, attention and after-effects.
Adriane E Seiffert, David C Somers, Anders M Dale, Roger B H Tootell. Cereb Cortex 2003
Adriane E Seiffert, David C Somers, Anders M Dale, Roger B H Tootell. Cereb Cortex 2003
15
Theta motion: a paradoxical stimulus to explore higher order motion extraction.
J M Zanker. Vision Res 1993
J M Zanker. Vision Res 1993
17
Global motion perception: no interaction between the first- and second-order motion pathways.
M Edwards, D R Badcock. Vision Res 1995
M Edwards, D R Badcock. Vision Res 1995
13
Direction identification thresholds for second-order motion in central and peripheral vision.
A T Smith, R F Hess, C L Baker. J Opt Soc Am A Opt Image Sci Vis 1994
A T Smith, R F Hess, C L Baker. J Opt Soc Am A Opt Image Sci Vis 1994
17
Co-cited is the co-citation frequency, indicating how many articles cite the article together with the query article. Similarity is the co-citation as percentage of the times cited of the query article or the article in the search results, whichever is the lowest. These numbers are calculated for the last 100 citations when articles are cited more than 100 times.