A citation-based method for searching scientific literature

Scott N J Watamaniuk, Stephen J Heinen. J Vis 2003
Times Cited: 45







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



Times Cited
  Times     Co-cited
Similarity


Visual processing of optic acceleration.
P Werkhoven, H P Snippe, A Toet. Vision Res 1992
148
62

Perception of acceleration with short presentation times: can acceleration be used in interception?
Anne-Marie Brouwer, Eli Brenner, Jeroen B J Smeets. Percept Psychophys 2002
74
33


Visual acceleration detection: effect of sign and motion orientation.
J B Calderone, M K Kaiser. Percept Psychophys 1989
74
28

The temporal integration and resolution of velocity signals.
R J Snowden, O J Braddick. Vision Res 1991
139
26

Human smooth pursuit direction discrimination.
S N Watamaniuk, S J Heinen. Vision Res 1999
76
24

Identifying the acceleration of visual targets.
R GOTTSDANKER, J W FRICK, R B LOCKARD. Br J Psychol 1961
55
24

Does the brain model Newton's laws?
J McIntyre, M Zago, A Berthoz, F Lacquaniti. Nat Neurosci 2001
219
24


Comparing acceleration and speed tuning in macaque MT: physiology and modeling.
N S C Price, S Ono, M J Mustari, M R Ibbotson. J Neurophysiol 2005
40
25



A model of the smooth pursuit eye movement system.
D A Robinson, J L Gordon, S E Gordon. Biol Cybern 1986
315
20



Recasting the smooth pursuit eye movement system.
Richard J Krauzlis. J Neurophysiol 2004
309
17

Manual interception of moving targets. I. Performance and movement initiation.
N L Port, D Lee, P Dassonville, A P Georgopoulos. Exp Brain Res 1997
87
17

Target acceleration can be extracted and represented within the predictive drive to ocular pursuit.
Simon J Bennett, Jean-Jacques Orban de Xivry, Graham R Barnes, Philippe Lefèvre. J Neurophysiol 2007
57
17

Anticipating the effects of gravity when intercepting moving objects: differentiating up and down based on nonvisual cues.
Patrice Senot, Myrka Zago, Francesco Lacquaniti, Joseph McIntyre. J Neurophysiol 2005
65
17

Internal models of target motion: expected dynamics overrides measured kinematics in timing manual interceptions.
Myrka Zago, Gianfranco Bosco, Vincenzo Maffei, Marco Iosa, Yuri P Ivanenko, Francesco Lacquaniti. J Neurophysiol 2004
127
17

Internal models and prediction of visual gravitational motion.
Myrka Zago, Joseph McIntyre, Patrice Senot, Francesco Lacquaniti. Vision Res 2008
67
17

Time-to-contact estimation of accelerated stimuli is based on first-order information.
Nicolas Benguigui, Hubert Ripoll, Michael P Broderick. J Exp Psychol Hum Percept Perform 2003
62
17


A comparison of pursuit eye movement and perceptual performance in speed discrimination.
Karl R Gegenfurtner, Dajun Xing, Brian H Scott, Michael J Hawken. J Vis 2003
59
15


Quantitative analysis of catch-up saccades during sustained pursuit.
Sophie de Brouwer, Marcus Missal, Graham Barnes, Philippe Lefèvre. J Neurophysiol 2002
116
15

Spatial integration in human smooth pursuit.
S J Heinen, S N Watamaniuk. Vision Res 1998
61
15

Representation of visual gravitational motion in the human vestibular cortex.
Iole Indovina, Vincenzo Maffei, Gianfranco Bosco, Myrka Zago, Emiliano Macaluso, Francesco Lacquaniti. Science 2005
205
15

Fast adaptation of the internal model of gravity for manual interceptions: evidence for event-dependent learning.
Myrka Zago, Gianfranco Bosco, Vincenzo Maffei, Marco Iosa, Yuri P Ivanenko, Francesco Lacquaniti. J Neurophysiol 2005
53
15

Visuo-motor coordination and internal models for object interception.
Myrka Zago, Joseph McIntyre, Patrice Senot, Francesco Lacquaniti. Exp Brain Res 2009
149
15

Extrapolation of vertical target motion through a brief visual occlusion.
Myrka Zago, Marco Iosa, Vincenzo Maffei, Francesco Lacquaniti. Exp Brain Res 2010
24
29

Visual motion processing and sensory-motor integration for smooth pursuit eye movements.
S G Lisberger, E J Morris, L Tychsen. Annu Rev Neurosci 1987
451
13

Human smooth pursuit: stimulus-dependent responses.
J R Carl, R S Gellman. J Neurophysiol 1987
281
13



The Psychophysics Toolbox.
D H Brainard. Spat Vis 1997
13



Role of image acceleration in judging landing location of free-falling projectiles.
T G Babler, J L Dannemiller. J Exp Psychol Hum Percept Perform 1993
54
13



Visually timed action: time-out for 'tau'?
Tresilian. Trends Cogn Sci 1999
106
13

Predicting curvilinear target motion through an occlusion.
Leigh A Mrotek, John F Soechting. Exp Brain Res 2007
42
14

Vestibular nuclei and cerebellum put visual gravitational motion in context.
William L Miller, Vincenzo Maffei, Gianfranco Bosco, Marco Iosa, Myrka Zago, Emiliano Macaluso, Francesco Lacquaniti. J Neurophysiol 2008
63
13

Keep your eyes on the ball: smooth pursuit eye movements enhance prediction of visual motion.
Miriam Spering, Alexander C Schütz, Doris I Braun, Karl R Gegenfurtner. J Neurophysiol 2011
62
13

Prospective versus predictive control in timing of hitting a falling ball.
Hiromu Katsumata, Daniel M Russell. Exp Brain Res 2012
22
27

Speed perception during acceleration and deceleration.
Anja Schlack, Bart Krekelberg, Thomas D Albright. J Vis 2008
21
28

Recent history of stimulus speeds affects the speed tuning of neurons in area MT.
Anja Schlack, Bart Krekelberg, Thomas D Albright. J Neurosci 2007
40
15




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.