A citation-based method for searching scientific literature

D Ellemberg, K Lavoie, T L Lewis, D Maurer, F Lepore, J-P Guillemot. Vision Res 2003
Times Cited: 31







List of co-cited articles
327 articles co-cited >1



Times Cited
  Times     Co-cited
Similarity




Cortical specialization for processing first- and second-order motion.
Serge O Dumoulin, Curtis L Baker, Robert F Hess, Alan C Evans. Cereb Cortex 2003
67
45








Motion: the long and short of it.
P Cavanagh, G Mather. Spat Vis 1989
423
25

Dual multiple-scale processing for motion in the human visual system.
S Nishida, T Ledgeway, M Edwards. Vision Res 1997
109
25




Comparison of sensitivity to first- and second-order local motion in 5-year-olds and adults.
Dave Ellemberg, Terri L Lewis, Karim S Meghji, Daphne Maurer, Jean-Paul Guillemot, Franco Lepore. Spat Vis 2003
34
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
200
22


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
85
22


FMRI adaptation reveals separate mechanisms for first-order and second-order motion.
Hiroshi Ashida, Angelika Lingnau, Matthew B Wall, Andrew T Smith. J Neurophysiol 2007
65
22





Investigating local network interactions underlying first- and second-order processing.
Dave Ellemberg, Harriet A Allen, Robert F Hess. Vision Res 2004
30
20

Orientation-selective adaptation to first- and second-order patterns in human visual cortex.
Jonas Larsson, Michael S Landy, David J Heeger. J Neurophysiol 2006
166
19


Development of static and dynamic perception for luminance-defined and texture-defined information.
Armando Bertone, Julie Hanck, Kim M Cornish, Jocelyn Faubert. Neuroreport 2008
19
31

A new anatomical landmark for reliable identification of human area V5/MT: a quantitative analysis of sulcal patterning.
S O Dumoulin, R G Bittar, N J Kabani, C L Baker, G Le Goualher, G Bruce Pike, A C Evans. Cereb Cortex 2000
365
16


Does early non-linearity account for second-order motion?
N E Scott-Samuel, M A Georgeson. Vision Res 1999
79
16



Discriminating the direction of second-order motion at short stimulus durations.
A M Derrington, D R Badcock, G B Henning. Vision Res 1993
97
16

Cortical processing of second-order motion.
I Mareschal, C L Baker. Vis Neurosci 1999
65
16


Temporal properties of the visual responses to luminance and contrast modulated noise.
Velitchko Manahilov, Julie Calvert, William A Simpson. Vision Res 2003
25
20

Processing of second-order stimuli in the visual cortex.
C L Baker, I Mareschal. Prog Brain Res 2001
69
16

Human cortical responses to contrast modulations of visual noise.
Julie Calvert, Velitchko Manahilov, William A Simpson, Denis M Parker. Vision Res 2005
12
41


Inefficient visual search for second-order motion.
H Ashida, A E Seiffert, N Osaka. J Opt Soc Am A Opt Image Sci Vis 2001
33
12

Human visual motion areas determined individually by magnetoencephalography and 3D magnetic resonance imaging.
M Bundo, Y Kaneoke, S Inao, J Yoshida, A Nakamura, R Kakigi. Hum Brain Mapp 2000
51
12


Spatiotemporal energy models for the perception of motion.
E H Adelson, J R Bergen. J Opt Soc Am A 1985
12

Functional analysis of human MT and related visual cortical areas using magnetic resonance imaging.
R B Tootell, J B Reppas, K K Kwong, R Malach, R T Born, T J Brady, B R Rosen, J W Belliveau. J Neurosci 1995
12

Envelope-responsive neurons in areas 17 and 18 of cat.
Y X Zhou, C L Baker. J Neurophysiol 1994
80
12

Detecting the displacement of periodic patterns.
D R Badcock, A M Derrington. Vision Res 1985
76
12

Integrated model of visual processing.
J Bullier. Brain Res Brain Res Rev 2001
569
12

Neuroimaging of direction-selective mechanisms for second-order motion.
Shin'ya Nishida, Yuka Sasaki, Ikuya Murakami, Takeo Watanabe, Roger B H Tootell. J Neurophysiol 2003
59
12


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.