M V Baldo, S A Klein. Nature 1995
Times Cited: 132
Times Cited: 132
Times Cited
Times Co-cited
Similarity
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
64
64
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
44
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
42
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
43
38
Perceptual stability of a stroboscopically lit visual field containing self-luminous objects.
D M MACKAY. Nature 1958
D M MACKAY. Nature 1958
38
Evidence for an attentional component of the perceptual misalignment between moving and flashing stimuli.
Marcus V C Baldo, Alexandre H Kihara, Janaina Namba, Stanley A Klein. Perception 2002
Marcus V C Baldo, Alexandre H Kihara, Janaina Namba, Stanley A Klein. Perception 2002
57
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
32
29
28
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
46
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
40
25
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
36
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
33
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
26
Differential latencies and the dynamics of the position computation process for moving targets, assessed with the flash-lag effect.
Haluk Oğmen, Saumil S Patel, Harold E Bedell, Kaan Camuz. Vision Res 2004
Haluk Oğmen, Saumil S Patel, Harold E Bedell, Kaan Camuz. Vision Res 2004
42
The role of attention in motion extrapolation: are moving objects 'corrected' or flashed objects attentionally delayed?
B Khurana, K Watanabe, R Nijhawan. Perception 2000
B Khurana, K Watanabe, R Nijhawan. Perception 2000
44
Visual prediction: psychophysics and neurophysiology of compensation for time delays.
Romi Nijhawan. Behav Brain Sci 2008
Romi Nijhawan. Behav Brain Sci 2008
21
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
23
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
19
Localizing the first position of a moving stimulus: the Fröhlich effect and an attention-shifting explanation.
J Müsseler, G Aschersleben. Percept Psychophys 1998
J Müsseler, G Aschersleben. Percept Psychophys 1998
26
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
33
The "Flash-Lag" effect occurs in audition and cross-modally.
David Alais, David Burr. Curr Biol 2003
David Alais, David Burr. Curr Biol 2003
29
Analogous mechanisms compensate for neural delays in the sensory and the motor pathways: evidence from motor flash-lag.
Romi Nijhawan, Kuno Kirschfeld. Curr Biol 2003
Romi Nijhawan, Kuno Kirschfeld. Curr Biol 2003
39
The VideoToolbox software for visual psychophysics: transforming numbers into movies.
D G Pelli. Spat Vis 1997
D G Pelli. Spat Vis 1997
16
The modulation of the flash-lag effect by voluntary attention.
Janaina Namba, Vinícius C Baldo. Perception 2004
Janaina Namba, Vinícius C Baldo. Perception 2004
69
Through the eye, slowly: delays and localization errors in the visual system.
J Schlag, M Schlag-Rey. Nat Rev Neurosci 2002
J Schlag, M Schlag-Rey. Nat Rev Neurosci 2002
15
13
Predictability and the dynamics of position processing in the flash-lag effect.
Dawn Vreven, Preeti Verghese. Perception 2005
Dawn Vreven, Preeti Verghese. Perception 2005
68
Shorter latencies for motion trajectories than for flashes in population responses of cat primary visual cortex.
Dirk Jancke, Wolfram Erlhagen, Gregor Schöner, Hubert R Dinse. J Physiol 2004
Dirk Jancke, Wolfram Erlhagen, Gregor Schöner, Hubert R Dinse. J Physiol 2004
17
Change in feature space is not necessary for the flash-lag effect.
T Bachmann, E Põder. Vision Res 2001
T Bachmann, E Põder. Vision Res 2001
50
Optimal smoothing in visual motion perception.
R P Rao, D M Eagleman, T J Sejnowski. Neural Comput 2001
R P Rao, D M Eagleman, T J Sejnowski. Neural Comput 2001
34
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
21
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
32
Influence of motion signals on the perceived position of spatial pattern.
S Nishida, A Johnston. Nature 1999
S Nishida, A Johnston. Nature 1999
10
Extrapolating movement without retinal motion.
J Schlag, R H Cai, A Dorfman, A Mohempour, M Schlag-Rey. Nature 2000
J Schlag, R H Cai, A Dorfman, A Mohempour, M Schlag-Rey. Nature 2000
30
66
Temporal facilitation for moving stimuli is independent of changes in direction.
D Whitney, P Cavanagh, I Murakami. Vision Res 2000
D Whitney, P Cavanagh, I Murakami. Vision Res 2000
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.