C L Baker, I Mareschal. Prog Brain Res 2001
Times Cited: 69
Times Cited: 69
Times Cited
Times Co-cited
Similarity
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C Chubb, G Sperling. J Opt Soc Am A 1988
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Sensitivity to modulations of luminance and contrast in visual white noise: separate mechanisms with similar behaviour.
A J Schofield, M A Georgeson. Vision Res 1999
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Orientation-selective adaptation to first- and second-order patterns in human visual cortex.
Jonas Larsson, Michael S Landy, David J Heeger. J Neurophysiol 2006
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26
Temporal and spatial response to second-order stimuli in cat area 18.
I Mareschal, C L Baker. J Neurophysiol 1998
I Mareschal, C L Baker. J Neurophysiol 1998
24
A cortical locus for the processing of contrast-defined contours.
I Mareschal, C L Baker. Nat Neurosci 1998
I Mareschal, C L Baker. Nat Neurosci 1998
24
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
23
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
23
The VideoToolbox software for visual psychophysics: transforming numbers into movies.
D G Pelli. Spat Vis 1997
D G Pelli. Spat Vis 1997
23
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
21
20
Cortical specialization for processing first- and second-order motion.
Serge O Dumoulin, Curtis L Baker, Robert F Hess, Alan C Evans. Cereb Cortex 2003
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19
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
18
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
15
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
15
15
Investigating local network interactions underlying first- and second-order processing.
Dave Ellemberg, Harriet A Allen, Robert F Hess. Vision Res 2004
Dave Ellemberg, Harriet A Allen, Robert F Hess. Vision Res 2004
36
Receptive fields, binocular interaction and functional architecture in the cat's visual cortex.
D H HUBEL, T N WIESEL. J Physiol 1962
D H HUBEL, T N WIESEL. J Physiol 1962
14
17
Mechanisms of contour perception in monkey visual cortex. I. Lines of pattern discontinuity.
R von der Heydt, E Peterhans. J Neurosci 1989
R von der Heydt, E Peterhans. J Neurosci 1989
14
Is second-order spatial loss in amblyopia explained by the loss of first-order spatial input?
E H Wong, D M Levi, P V McGraw. Vision Res 2001
E H Wong, D M Levi, P V McGraw. Vision Res 2001
19
Nonlinear processes in spatial-frequency channel models of perceived texture segregation: effects of sign and amount of contrast.
N Graham, J Beck, A Sutter. Vision Res 1992
N Graham, J Beck, A Sutter. Vision Res 1992
14
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
13
Sensitivity to contrast modulation depends on carrier spatial frequency and orientation.
S C Dakin, I Mareschal. Vision Res 2000
S C Dakin, I Mareschal. Vision Res 2000
13
Spatial properties of envelope-responsive cells in area 17 and 18 neurons of the cat.
Y X Zhou, C L Baker. J Neurophysiol 1996
Y X Zhou, C L Baker. J Neurophysiol 1996
13
Form-cue invariant second-order neuronal responses to contrast modulation in primate area V2.
Guangxing Li, Zhimo Yao, Zhengchun Wang, Nini Yuan, Vargha Talebi, Jiabo Tan, Yongchang Wang, Yifeng Zhou, Curtis L Baker. J Neurosci 2014
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36
11
Evidence for separate motion-detecting mechanisms for first- and second-order motion in human vision.
T Ledgeway, A T Smith. Vision Res 1994
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11
Measuring the spatial frequency selectivity of second-order texture mechanisms.
A Sutter, G Sperling, C Chubb. Vision Res 1995
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11
Neural correlates of boundary perception.
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A G Leventhal, Y Wang, M T Schmolesky, Y Zhou. Vis Neurosci 1998
11
Spatial interactions reveal inhibitory cortical networks in human amblyopia.
Erwin H Wong, Dennis M Levi, Paul V McGraw. Vision Res 2005
Erwin H Wong, Dennis M Levi, Paul V McGraw. Vision Res 2005
20
Preattentive texture discrimination with early vision mechanisms.
J Malik, P Perona. J Opt Soc Am A 1990
J Malik, P Perona. J Opt Soc Am A 1990
11
First- and second-order information in natural images: a filter-based approach to image statistics.
Aaron P Johnson, Curtis L Baker. J Opt Soc Am A Opt Image Sci Vis 2004
Aaron P Johnson, Curtis L Baker. J Opt Soc Am A Opt Image Sci Vis 2004
20
Sensitivity to second-order motion as a function of temporal frequency and eccentricity.
A T Smith, T Ledgeway. Vision Res 1998
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12
10
Mechanism independence for texture-modulation detection is consistent with a filter-rectify-filter mechanism.
Frederick A A Kingdom, Nicolaas Prins, Anthony Hayes. Vis Neurosci 2003
Frederick A A Kingdom, Nicolaas Prins, Anthony Hayes. Vis Neurosci 2003
20
Sensitivity to contrast modulation: the spatial frequency dependence of second-order vision.
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12
10
Neuronal response to texture- and contrast-defined boundaries in early visual cortex.
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Yuning Song, Curtis L Baker. Vis Neurosci 2007
30
Neural basis for stereopsis from second-order contrast cues.
Hiroki Tanaka, Izumi Ohzawa. J Neurosci 2006
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15
The temporal properties of first- and second-order vision.
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A J Schofield, M A Georgeson. Vision Res 2000
22
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
8
Processing of kinetically defined boundaries in areas V1 and V2 of the macaque monkey.
V L Marcar, S E Raiguel, D Xiao, G A Orban. J Neurophysiol 2000
V L Marcar, S E Raiguel, D Xiao, G A Orban. J Neurophysiol 2000
10
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.