A citation-based method for searching scientific literature

Juan Fernandez-Ruiz, William Wong, Irene T Armstrong, J Randall Flanagan. Behav Brain Res 2011
Times Cited: 98







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



Times Cited
  Times     Co-cited
Similarity



Explicit and implicit contributions to learning in a sensorimotor adaptation task.
Jordan A Taylor, John W Krakauer, Richard B Ivry. J Neurosci 2014
348
55

The influence of movement preparation time on the expression of visuomotor learning and savings.
Adrian M Haith, David M Huberdeau, John W Krakauer. J Neurosci 2015
119
50


Flexible cognitive strategies during motor learning.
Jordan A Taylor, Richard B Ivry. PLoS Comput Biol 2011
169
38


Sensory prediction errors drive cerebellum-dependent adaptation of reaching.
Ya-Weng Tseng, Jörn Diedrichsen, John W Krakauer, Reza Shadmehr, Amy J Bastian. J Neurophysiol 2007
526
29

Savings upon Re-Aiming in Visuomotor Adaptation.
J Ryan Morehead, Salman E Qasim, Matthew J Crossley, Richard Ivry. J Neurosci 2015
112
29

Explicit and Implicit Processes Constitute the Fast and Slow Processes of Sensorimotor Learning.
Samuel D McDougle, Krista M Bond, Jordan A Taylor. J Neurosci 2015
165
29

A spatial explicit strategy reduces error but interferes with sensorimotor adaptation.
Bryan L Benson, Joaquin A Anguera, Rachael D Seidler. J Neurophysiol 2011
112
28

Contributions of spatial working memory to visuomotor learning.
Joaquin A Anguera, Patricia A Reuter-Lorenz, Daniel T Willingham, Rachael D Seidler. J Cogn Neurosci 2010
175
27


Error correction, sensory prediction, and adaptation in motor control.
Reza Shadmehr, Maurice A Smith, John W Krakauer. Annu Rev Neurosci 2010
884
26

Learning of visuomotor transformations for vectorial planning of reaching trajectories.
J W Krakauer, Z M Pine, M F Ghilardi, C Ghez. J Neurosci 2000
521
24



Throwing while looking through prisms. I. Focal olivocerebellar lesions impair adaptation.
T A Martin, J G Keating, H P Goodkin, A J Bastian, W T Thach. Brain 1996
424
23


Estimating the implicit component of visuomotor rotation learning by constraining movement preparation time.
Li-Ann Leow, Reece Gunn, Welber Marinovic, Timothy J Carroll. J Neurophysiol 2017
44
52

Dissociable cognitive strategies for sensorimotor learning.
Samuel D McDougle, Jordan A Taylor. Nat Commun 2019
60
38


An explicit strategy prevails when the cerebellum fails to compute movement errors.
Jordan A Taylor, Nola M Klemfuss, Richard B Ivry. Cerebellum 2010
110
22


Characteristics of Implicit Sensorimotor Adaptation Revealed by Task-irrelevant Clamped Feedback.
J Ryan Morehead, Jordan A Taylor, Darius E Parvin, Richard B Ivry. J Cogn Neurosci 2017
83
25

Adaptation to visuomotor rotations in younger and older adults.
Herbert Heuer, Mathias Hegele. Psychol Aging 2008
98
20

Adaptation to visuomotor transformations: consolidation, interference, and forgetting.
John W Krakauer, Claude Ghez, M Felice Ghilardi. J Neurosci 2005
299
19

Multiple motor learning strategies in visuomotor rotation.
Naoki Saijo, Hiroaki Gomi. PLoS One 2010
54
33


Dissociating the roles of the cerebellum and motor cortex during adaptive learning: the motor cortex retains what the cerebellum learns.
Joseph M Galea, Alejandro Vazquez, Neel Pasricha, Jean-Jacques Orban de Xivry, Pablo Celnik. Cereb Cortex 2011
449
18



A memory of errors in sensorimotor learning.
David J Herzfeld, Pavan A Vaswani, Mollie K Marko, Reza Shadmehr. Science 2014
157
17

Dual-process decomposition in human sensorimotor adaptation.
David M Huberdeau, John W Krakauer, Adrian M Haith. Curr Opin Neurobiol 2015
90
18

Taking Aim at the Cognitive Side of Learning in Sensorimotor Adaptation Tasks.
Samuel D McDougle, Richard B Ivry, Jordan A Taylor. Trends Cogn Sci 2016
97
17


Principles of sensorimotor learning.
Daniel M Wolpert, Jörn Diedrichsen, J Randall Flanagan. Nat Rev Neurosci 2011
614
16

Motor Learning.
John W Krakauer, Alkis M Hadjiosif, Jing Xu, Aaron L Wong, Adrian M Haith. Compr Physiol 2019
171
16

Practice induces a qualitative change in the memory representation for visuomotor learning.
David M Huberdeau, John W Krakauer, Adrian M Haith. J Neurophysiol 2019
29
55

Explaining savings for visuomotor adaptation: linear time-invariant state-space models are not sufficient.
Eric Zarahn, Gregory D Weston, Johnny Liang, Pietro Mazzoni, John W Krakauer. J Neurophysiol 2008
92
16

Unlearning versus savings in visuomotor adaptation: comparing effects of washout, passage of time, and removal of errors on motor memory.
Tomoko Kitago, Sophia L Ryan, Pietro Mazzoni, John W Krakauer, Adrian M Haith. Front Hum Neurosci 2013
67
22

Overcoming motor "forgetting" through reinforcement of learned actions.
Lior Shmuelof, Vincent S Huang, Adrian M Haith, Raymond J Delnicki, Pietro Mazzoni, John W Krakauer. J Neurosci 2012
108
15

Formation of a long-term memory for visuomotor adaptation following only a few trials of practice.
David M Huberdeau, Adrian M Haith, John W Krakauer. J Neurophysiol 2015
63
23


The dynamics of memory as a consequence of optimal adaptation to a changing body.
Konrad P Kording, Joshua B Tenenbaum, Reza Shadmehr. Nat Neurosci 2007
246
14

A shared resource between declarative memory and motor memory.
Aysha Keisler, Reza Shadmehr. J Neurosci 2010
84
16


Cerebellar contributions to reach adaptation and learning sensory consequences of action.
Jun Izawa, Sarah E Criscimagna-Hemminger, Reza Shadmehr. J Neurosci 2012
180
14

Gone in 0.6 seconds: the encoding of motor memories depends on recent sensorimotor states.
Ian S Howard, James N Ingram, David W Franklin, Daniel M Wolpert. J Neurosci 2012
68
20

Motor task variation induces structural learning.
Daniel A Braun, Ad Aertsen, Daniel M Wolpert, Carsten Mehring. Curr Biol 2009
145
13

The dissociable effects of punishment and reward on motor learning.
Joseph M Galea, Elizabeth Mallia, John Rothwell, Jörn Diedrichsen. Nat Neurosci 2015
165
13


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.