A citation-based method for searching scientific literature

Kimberly Meier, Deborah Giaschi. Vision (Basel) 2019
Times Cited: 3







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



Times Cited
  Times     Co-cited
Similarity


Global Visual Motion Sensitivity: Associations with Parietal Area and Children's Mathematical Cognition.
Oliver Braddick, Janette Atkinson, Erik Newman, Natacha Akshoomoff, Joshua M Kuperman, Hauke Bartsch, Chi-Hua Chen, Anders M Dale, Terry L Jernigan. J Cogn Neurosci 2016
23
66

Independent speed-tuned global-motion systems.
M Edwards, D R Badcock, A T Smith. Vision Res 1998
57
66


Motion perception: a review of developmental changes and the role of early visual experience.
Batsheva Hadad, Sivan Schwartz, Daphne Maurer, Terri L Lewis. Front Integr Neurosci 2015
32
66


Brain areas sensitive to coherent visual motion.
O J Braddick, J M O'Brien, J Wattam-Bell, J Atkinson, T Hartley, R Turner. Perception 2001
236
66


The maturation of form and motion perception in school age children.
E E Parrish, D E Giaschi, C Boden, R Dougherty. Vision Res 2005
94
66


An advantage for horizontal motion direction discrimination.
Karin S Pilz, Danai Papadaki. Vision Res 2019
6
66


The relative capabilities of the upper and lower visual hemifields.
Michael W Levine, J Jason McAnany. Vision Res 2005
93
33

Two retinotopic visual areas in human lateral occipital cortex.
Jonas Larsson, David J Heeger. J Neurosci 2006
382
33

Attentional resolution and the locus of visual awareness.
S He, P Cavanagh, J Intriligator. Nature 1996
643
33


Speed can go up as well as down at low contrast: implications for models of motion perception.
Peter Thompson, Kevin Brooks, Stephen T Hammett. Vision Res 2006
76
33


A new neural framework for visuospatial processing.
Dwight J Kravitz, Kadharbatcha S Saleem, Chris I Baker, Mortimer Mishkin. Nat Rev Neurosci 2011
646
33


The effect of occlusion therapy on motion perception deficits in amblyopia.
Deborah Giaschi, Christine Chapman, Kimberly Meier, Sathyasri Narasimhan, David Regan. Vision Res 2015
19
33

Motion coherence and direction discrimination in healthy aging.
Karin S Pilz, Louisa Miller, Hannah C Agnew. J Vis 2017
18
33


Estimating receptive field size from fMRI data in human striate and extrastriate visual cortex.
A T Smith, K D Singh, A L Williams, M W Greenlee. Cereb Cortex 2001
222
33

Processing of coherent visual motion in topographically organized visual areas in human cerebral cortex.
Randolph F Helfrich, Hubertus G T Becker, Thomas Haarmeier. Brain Topogr 2013
36
33

The ventral visual pathway: an expanded neural framework for the processing of object quality.
Dwight J Kravitz, Kadharbatcha S Saleem, Chris I Baker, Leslie G Ungerleider, Mortimer Mishkin. Trends Cogn Sci 2013
467
33

Directional asymmetries in human smooth pursuit eye movements.
Sally R Ke, Jessica Lam, Dinesh K Pai, Miriam Spering. Invest Ophthalmol Vis Sci 2013
32
33

A single motion system suffices for global-motion perception.
Jeroen J A van Boxtel, Casper J Erkelens. Vision Res 2006
14
33



Disentangling neural structures for processing of high- and low-speed visual motion.
Jeannette A M Lorteije, Richard J A van Wezel, Maarten J van der Smagt. Eur J Neurosci 2008
13
33

QUEST: a Bayesian adaptive psychometric method.
A B Watson, D G Pelli. Percept Psychophys 1983
33

Behavioral effects of visual field location on processing motion- and luminance-defined form.
Patricia A McMullen, Lesley E MacSween, Charles A Collin. J Vis 2009
2
50

Visual field defects for vergence eye movements and for stereomotion perception.
D Regan, C J Erkelens, H Collewijn. Invest Ophthalmol Vis Sci 1986
55
33

Individual differences in children's global motion sensitivity correlate with TBSS-based measures of the superior longitudinal fasciculus.
Oliver Braddick, Janette Atkinson, Natacha Akshoomoff, Erik Newman, Lauren B Curley, Marybel Robledo Gonzalez, Timothy Brown, Anders Dale, Terry Jernigan. Vision Res 2017
19
33

Do we have independent visual streams for perception and action?
Thomas Schenk, Robert D McIntosh. Cogn Neurosci 2010
134
33

The role of human ventral visual cortex in motion perception.
Sharon Gilaie-Dotan, Ayse P Saygin, Lauren J Lorenzi, Ryan Egan, Geraint Rees, Marlene Behrmann. Brain 2013
33
33


Deficits to global motion processing in human amblyopia.
Anita J Simmers, Tim Ledgeway, Robert F Hess, Paul V McGraw. Vision Res 2003
205
33

Better perception of global motion after monocular than after binocular deprivation.
Dave Ellemberg, Terri L Lewis, Daphne Maurer, Sonia Brar, Henry P Brent. Vision Res 2002
126
33



The role of cortical area V5/MT+ in speed-tuned directional anisotropies in global motion perception.
Deborah Giaschi, Amy Zwicker, Simon Au Young, Bruce Bjornson. Vision Res 2007
27
33

Neural Correlates of Speed-Tuned Motion Perception in Healthy Adults.
Kimberly Meier, Marita Partanen, Deborah Giaschi. Perception 2018
5
33

Contributions of the visual ventral pathway to long-range apparent motion.
Yan Zhuo, Tian Gang Zhou, Heng Yi Rao, Jiong Jiong Wang, Ming Meng, Ming Chen, Cheng Zhou, Lin Chen. Science 2003
59
33

Inhomogeneity and anisotropies for motion detection in the monocular visual field of human observers.
W A van de Grind, J J Koenderink, A J van Doorn, M V Milders, H Voerman. Vision Res 1993
41
33

Vertical asymmetries in pre-attentive detection of changes in motion direction.
Elena Amenedo, Paula Pazo-Alvarez, Fernando Cadaveira. Int J Psychophysiol 2007
46
33


Parallel processing strategies of the primate visual system.
Jonathan J Nassi, Edward M Callaway. Nat Rev Neurosci 2009
358
33

Development of radial optic flow pattern sensitivity at different speeds.
Mahesh Raj Joshi, Helle K Falkenberg. Vision Res 2015
14
33

Separate visual pathways for perception and action.
M A Goodale, A D Milner. Trends Neurosci 1992
33


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.