Dirk Jancke, Wolfram Erlhagen, Gregor Schöner, Hubert R Dinse. J Physiol 2004
Times Cited: 73
Times Cited: 73
Times Cited
Times Co-cited
Similarity
Anticipation of moving stimuli by the retina.
M J Berry, I H Brivanlou, T A Jordan, M Meister. Nature 1999
M J Berry, I H Brivanlou, T A Jordan, M Meister. Nature 1999
45
39
Motion integration and postdiction in visual awareness.
D M Eagleman, T J Sejnowski. Science 2000
D M Eagleman, T J Sejnowski. Science 2000
34
Motion signals bias localization judgments: a unified explanation for the flash-lag, flash-drag, flash-jump, and Frohlich illusions.
David M Eagleman, Terrence J Sejnowski. J Vis 2007
David M Eagleman, Terrence J Sejnowski. J Vis 2007
26
Motion distorts visual space: shifting the perceived position of remote stationary objects.
D Whitney, P Cavanagh. Nat Neurosci 2000
D Whitney, P Cavanagh. Nat Neurosci 2000
24
Visual prediction: psychophysics and neurophysiology of compensation for time delays.
Romi Nijhawan. Behav Brain Sci 2008
Romi Nijhawan. Behav Brain Sci 2008
24
23
Moving ahead through differential visual latency.
G Purushothaman, S S Patel, H E Bedell, H Ogmen. Nature 1998
G Purushothaman, S S Patel, H E Bedell, H Ogmen. Nature 1998
23
23
A motion-dependent distortion of retinotopy in area V4.
Kristy A Sundberg, Mazyar Fallah, John H Reynolds. Neuron 2006
Kristy A Sundberg, Mazyar Fallah, John H Reynolds. Neuron 2006
27
Perceptual stability of a stroboscopically lit visual field containing self-luminous objects.
D M MACKAY. Nature 1958
D M MACKAY. Nature 1958
19
The Fröhlich effect: a consequence of the interaction of visual focal attention and metacontrast.
K Kirschfeld, T Kammer. Vision Res 1999
K Kirschfeld, T Kammer. Vision Res 1999
19
Illusory spatial offset of a flash relative to a moving stimulus is caused by differential latencies for moving and flashed stimuli.
D Whitney, I Murakami, P Cavanagh. Vision Res 2000
D Whitney, I Murakami, P Cavanagh. Vision Res 2000
19
Stopping the motion and sleuthing the flash-lag effect: spatial uncertainty is the key to perceptual mislocalization.
Ryota Kanai, Bhavin R Sheth, Shinsuke Shimojo. Vision Res 2004
Ryota Kanai, Bhavin R Sheth, Shinsuke Shimojo. Vision Res 2004
19
The VideoToolbox software for visual psychophysics: transforming numbers into movies.
D G Pelli. Spat Vis 1997
D G Pelli. Spat Vis 1997
19
Predictive coding in the visual cortex: a functional interpretation of some extra-classical receptive-field effects.
R P Rao, D H Ballard. Nat Neurosci 1999
R P Rao, D H Ballard. Nat Neurosci 1999
17
Velocity selectivity in the cat visual system. I. Responses of LGN cells to moving bar stimuli: a comparison with cortical areas 17 and 18.
G A Orban, K P Hoffmann, J Duysens. J Neurophysiol 1985
G A Orban, K P Hoffmann, J Duysens. J Neurophysiol 1985
20
Illusory displacement of equiluminous kinetic edges.
V S Ramachandran, S M Anstis. Perception 1990
V S Ramachandran, S M Anstis. Perception 1990
16
Imaging cortical correlates of illusion in early visual cortex.
Dirk Jancke, Frédéric Chavane, Shmuel Naaman, Amiram Grinvald. Nature 2004
Dirk Jancke, Frédéric Chavane, Shmuel Naaman, Amiram Grinvald. Nature 2004
16
Motion extrapolation is not responsible for the flash-lag effect.
E Brenner, J B Smeets. Vision Res 2000
E Brenner, J B Smeets. Vision Res 2000
16
Faster processing of moving compared with flashed bars in awake macaque V1 provides a neural correlate of the flash lag illusion.
Manivannan Subramaniyan, Alexander S Ecker, Saumil S Patel, R James Cotton, Matthias Bethge, Xaq Pitkow, Philipp Berens, Andreas S Tolias. J Neurophysiol 2018
Manivannan Subramaniyan, Alexander S Ecker, Saumil S Patel, R James Cotton, Matthias Bethge, Xaq Pitkow, Philipp Berens, Andreas S Tolias. J Neurophysiol 2018
75
Neuronal latencies and the position of moving objects.
B Krekelberg, M Lappe. Trends Neurosci 2001
B Krekelberg, M Lappe. Trends Neurosci 2001
15
Horizontal propagation of visual activity in the synaptic integration field of area 17 neurons.
V Bringuier, F Chavane, L Glaeser, Y Frégnac. Science 1999
V Bringuier, F Chavane, L Glaeser, Y Frégnac. Science 1999
15
The position of moving objects.
B Krekelberg, M Lappe, D Whitney, P Cavanagh, D M Eagleman, T J Sejnowski. Science 2000
B Krekelberg, M Lappe, D Whitney, P Cavanagh, D M Eagleman, T J Sejnowski. Science 2000
16
Synchronized firing among retinal ganglion cells signals motion reversal.
Greg Schwartz, Sam Taylor, Clark Fisher, Rob Harris, Michael J Berry. Neuron 2007
Greg Schwartz, Sam Taylor, Clark Fisher, Rob Harris, Michael J Berry. Neuron 2007
15
13
A model of the perceived relative positions of moving objects based upon a slow averaging process.
B Krekelberg, M Lappe. Vision Res 2000
B Krekelberg, M Lappe. Vision Res 2000
13
The Flash-Lag Effect as a Motion-Based Predictive Shift.
Mina A Khoei, Guillaume S Masson, Laurent U Perrinet. PLoS Comput Biol 2017
Mina A Khoei, Guillaume S Masson, Laurent U Perrinet. PLoS Comput Biol 2017
40
Predictive coding of visual object position ahead of moving objects revealed by time-resolved EEG decoding.
Hinze Hogendoorn, Anthony N Burkitt. Neuroimage 2018
Hinze Hogendoorn, Anthony N Burkitt. Neuroimage 2018
41
12
Neuronal processing delays are compensated in the sensorimotor branch of the visual system.
Dirk Kerzel, Karl R Gegenfurtner. Curr Biol 2003
Dirk Kerzel, Karl R Gegenfurtner. Curr Biol 2003
16
Forward displacements of fading objects in motion: the role of transient signals in perceiving position.
Gerrit W Maus, Romi Nijhawan. Vision Res 2006
Gerrit W Maus, Romi Nijhawan. Vision Res 2006
24
Motion-dependent representation of space in area MT+.
Gerrit W Maus, Jason Fischer, David Whitney. Neuron 2013
Gerrit W Maus, Jason Fischer, David Whitney. Neuron 2013
22
Flash-lag effect: differential latency, not postdiction.
S S Patel, H Ogmen, H E Bedell, V Sampath. Science 2000
S S Patel, H Ogmen, H E Bedell, V Sampath. Science 2000
13
Influence of motion signals on the perceived position of spatial pattern.
S Nishida, A Johnston. Nature 1999
S Nishida, A Johnston. Nature 1999
10
Perceptual latencies are shorter for motion towards the fovea than for motion away.
S Mateeff, J Hohnsbein. Vision Res 1988
S Mateeff, J Hohnsbein. Vision Res 1988
11
An empirical explanation of the flash-lag effect.
William T Wojtach, Kyongje Sung, Sandra Truong, Dale Purves. Proc Natl Acad Sci U S A 2008
William T Wojtach, Kyongje Sung, Sandra Truong, Dale Purves. Proc Natl Acad Sci U S A 2008
25
Predictive coding of visual motion in both monocular and binocular human visual processing.
Elle van Heusden, Anthony M Harris, Marta I Garrido, Hinze Hogendoorn. J Vis 2019
Elle van Heusden, Anthony M Harris, Marta I Garrido, Hinze Hogendoorn. J Vis 2019
44
Predictions drive neural representations of visual events ahead of incoming sensory information.
Tessel Blom, Daniel Feuerriegel, Philippa Johnson, Stefan Bode, Hinze Hogendoorn. Proc Natl Acad Sci U S A 2020
Tessel Blom, Daniel Feuerriegel, Philippa Johnson, Stefan Bode, Hinze Hogendoorn. Proc Natl Acad Sci U S A 2020
28
Motion-induced perceptual extrapolation of blurred visual targets.
Y X Fu, Y Shen, Y Dan. J Neurosci 2001
Y X Fu, Y Shen, Y Dan. J Neurosci 2001
12
Cortical point-spread function and long-range lateral interactions revealed by real-time optical imaging of macaque monkey primary visual cortex.
A Grinvald, E E Lieke, R D Frostig, R Hildesheim. J Neurosci 1994
A Grinvald, E E Lieke, R D Frostig, R Hildesheim. J Neurosci 1994
9
9
Signal timing across the macaque visual system.
M T Schmolesky, Y Wang, D P Hanes, K G Thompson, S Leutgeb, J D Schall, A G Leventhal. J Neurophysiol 1998
M T Schmolesky, Y Wang, D P Hanes, K G Thompson, S Leutgeb, J D Schall, A G Leventhal. J Neurophysiol 1998
9
Asymmetry in visual cortical circuits underlying motion-induced perceptual mislocalization.
Yu-Xi Fu, Yaosong Shen, Hongfeng Gao, Yang Dan. J Neurosci 2004
Yu-Xi Fu, Yaosong Shen, Hongfeng Gao, Yang Dan. J Neurosci 2004
9
Temporal recruitment along the trajectory of moving objects and the perception of position.
B Krekelberg, M Lappe. Vision Res 1999
B Krekelberg, M Lappe. Vision Res 1999
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.