A citation-based method for searching scientific literature

Thomas C Emmerling, Jan Zimmermann, Bettina Sorger, Martin A Frost, Rainer Goebel. Neuroimage 2016
Times Cited: 25







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



Times Cited
  Times     Co-cited
Similarity


Information-based functional brain mapping.
Nikolaus Kriegeskorte, Rainer Goebel, Peter Bandettini. Proc Natl Acad Sci U S A 2006
28


Mapping the organization of axis of motion selective features in human area MT using high-field fMRI.
Jan Zimmermann, Rainer Goebel, Federico De Martino, Pierre-Francois van de Moortele, David Feinberg, Gregor Adriany, Denis Chaimow, Amir Shmuel, Kamil Uğurbil, Essa Yacoub. PLoS One 2011
103
28

Shared representations for working memory and mental imagery in early visual cortex.
Anke Marit Albers, Peter Kok, Ivan Toni, H Chris Dijkerman, Floris P de Lange. Curr Biol 2013
186
28

A voxel-wise encoding model for early visual areas decodes mental images of remembered scenes.
Thomas Naselaris, Cheryl A Olman, Dustin E Stansbury, Kamil Ugurbil, Jack L Gallant. Neuroimage 2015
91
24

Population receptive field estimates in human visual cortex.
Serge O Dumoulin, Brian A Wandell. Neuroimage 2008
559
20


Beyond mind-reading: multi-voxel pattern analysis of fMRI data.
Kenneth A Norman, Sean M Polyn, Greg J Detre, James V Haxby. Trends Cogn Sci 2006
20


Imagery and perception share cortical representations of content and location.
Radoslaw M Cichy, Jakob Heinzle, John-Dylan Haynes. Cereb Cortex 2012
114
20

Visual mental imagery induces retinotopically organized activation of early visual areas.
Scott D Slotnick, William L Thompson, Stephen M Kosslyn. Cereb Cortex 2005
180
20

Brain areas underlying visual mental imagery and visual perception: an fMRI study.
Giorgio Ganis, William L Thompson, Stephen M Kosslyn. Brain Res Cogn Brain Res 2004
333
20

Retinotopy and functional subdivision of human areas MT and MST.
Alexander C Huk, Robert F Dougherty, David J Heeger. J Neurosci 2002
390
16

Visual image reconstruction from human brain activity using a combination of multiscale local image decoders.
Yoichi Miyawaki, Hajime Uchida, Okito Yamashita, Masa-aki Sato, Yusuke Morito, Hiroki C Tanabe, Norihiro Sadato, Yukiyasu Kamitani. Neuron 2008
191
16

Neurophysiological investigation of the basis of the fMRI signal.
N K Logothetis, J Pauls, M Augath, T Trinath, A Oeltermann. Nature 2001
16

Distributed and overlapping representations of faces and objects in ventral temporal cortex.
J V Haxby, M I Gobbini, M L Furey, A Ishai, J L Schouten, P Pietrini. Science 2001
16

High-field fMRI unveils orientation columns in humans.
Essa Yacoub, Noam Harel, Kâmil Ugurbil. Proc Natl Acad Sci U S A 2008
335
16

Decoding the visual and subjective contents of the human brain.
Yukiyasu Kamitani, Frank Tong. Nat Neurosci 2005
995
16



Decoding sound and imagery content in early visual cortex.
Petra Vetter, Fraser W Smith, Lars Muckli. Curr Biol 2014
111
16

Disentangling visual imagery and perception of real-world objects.
Sue-Hyun Lee, Dwight J Kravitz, Chris I Baker. Neuroimage 2012
98
16



A new anatomical landmark for reliable identification of human area V5/MT: a quantitative analysis of sulcal patterning.
S O Dumoulin, R G Bittar, N J Kabani, C L Baker, G Le Goualher, G Bruce Pike, A C Evans. Cereb Cortex 2000
364
12

Functional analysis of human MT and related visual cortical areas using magnetic resonance imaging.
R B Tootell, J B Reppas, K K Kwong, R Malach, R T Born, T J Brady, B R Rosen, J W Belliveau. J Neurosci 1995
12

A common, high-dimensional model of the representational space in human ventral temporal cortex.
James V Haxby, J Swaroop Guntupalli, Andrew C Connolly, Yaroslav O Halchenko, Bryan R Conroy, M Ida Gobbini, Michael Hanke, Peter J Ramadge. Neuron 2011
264
12

Borders of multiple visual areas in humans revealed by functional magnetic resonance imaging.
M I Sereno, A M Dale, J B Reppas, K K Kwong, J W Belliveau, T J Brady, B R Rosen, R B Tootell. Science 1995
12

Machine learning classifiers and fMRI: a tutorial overview.
Francisco Pereira, Tom Mitchell, Matthew Botvinick. Neuroimage 2009
829
12

Ultrahigh field magnetic resonance imaging and spectroscopy.
Kâmil Uğurbil, Gregor Adriany, Peter Andersen, Wei Chen, Michael Garwood, Rolf Gruetter, Pierre-Gil Henry, Seong-Gi Kim, Haiying Lieu, Ivan Tkac,[...]. Magn Reson Imaging 2003
158
12


Real-time decoding of brain responses to visuospatial attention using 7T fMRI.
Patrik Andersson, Josien P W Pluim, Jeroen C W Siero, Stefan Klein, Max A Viergever, Nick F Ramsey. PLoS One 2011
22
13

7 tesla FMRI reveals systematic functional organization for binocular disparity in dorsal visual cortex.
Nuno R Goncalves, Hiroshi Ban, Rosa M Sánchez-Panchuelo, Susan T Francis, Denis Schluppeck, Andrew E Welchman. J Neurosci 2015
45
12

Selective Activation of the Deep Layers of the Human Primary Visual Cortex by Top-Down Feedback.
Peter Kok, Lauren J Bains, Tim van Mourik, David G Norris, Floris P de Lange. Curr Biol 2016
147
12

Multiband multislice GE-EPI at 7 tesla, with 16-fold acceleration using partial parallel imaging with application to high spatial and temporal whole-brain fMRI.
Steen Moeller, Essa Yacoub, Cheryl A Olman, Edward Auerbach, John Strupp, Noam Harel, Kâmil Uğurbil. Magn Reson Med 2010
774
12

Frequency preference and attention effects across cortical depths in the human primary auditory cortex.
Federico De Martino, Michelle Moerel, Kamil Ugurbil, Rainer Goebel, Essa Yacoub, Elia Formisano. Proc Natl Acad Sci U S A 2015
86
12

Comparison of physiological noise at 1.5 T, 3 T and 7 T and optimization of fMRI acquisition parameters.
C Triantafyllou, R D Hoge, G Krueger, C J Wiggins, A Potthast, G C Wiggins, L L Wald. Neuroimage 2005
404
12

High resolution data analysis strategies for mesoscale human functional MRI at 7 and 9.4T.
Valentin G Kemper, Federico De Martino, Thomas C Emmerling, Essa Yacoub, Rainer Goebel. Neuroimage 2018
36
12

T1 weighted brain images at 7 Tesla unbiased for Proton Density, T2* contrast and RF coil receive B1 sensitivity with simultaneous vessel visualization.
Pierre-François Van de Moortele, Edwards J Auerbach, Cheryl Olman, Essa Yacoub, Kâmil Uğurbil, Steen Moeller. Neuroimage 2009
200
12

PsychoPy--Psychophysics software in Python.
Jonathan W Peirce. J Neurosci Methods 2007
12

Evaluating population receptive field estimation frameworks in terms of robustness and reproducibility.
Mario Senden, Joel Reithler, Sven Gijsen, Rainer Goebel. PLoS One 2014
15
20

The Psychophysics Toolbox.
D H Brainard. Spat Vis 1997
12

Advances in functional and structural MR image analysis and implementation as FSL.
Stephen M Smith, Mark Jenkinson, Mark W Woolrich, Christian F Beckmann, Timothy E J Behrens, Heidi Johansen-Berg, Peter R Bannister, Marilena De Luca, Ivana Drobnjak, David E Flitney,[...]. Neuroimage 2004
12

Vividness of Visual Imagery Depends on the Neural Overlap with Perception in Visual Areas.
Nadine Dijkstra, Sander E Bosch, Marcel A J van Gerven. J Neurosci 2017
62
12

Imagery of a moving object: the role of occipital cortex and human MT/V5+.
Amanda Kaas, Sarah Weigelt, Alard Roebroeck, Axel Kohler, Lars Muckli. Neuroimage 2010
47
12

Top-down activation of shape-specific population codes in visual cortex during mental imagery.
Mark Stokes, Russell Thompson, Rhodri Cusack, John Duncan. J Neurosci 2009
179
12

Reading the mind's eye: decoding category information during mental imagery.
Leila Reddy, Naotsugu Tsuchiya, Thomas Serre. Neuroimage 2010
138
12

Decoding individual natural scene representations during perception and imagery.
Matthew R Johnson, Marcia K Johnson. Front Hum Neurosci 2014
53
12

Vividness of mental imagery: individual variability can be measured objectively.
Xu Cui, Cameron B Jeter, Dongni Yang, P Read Montague, David M Eagleman. Vision Res 2007
164
12

Neural foundations of imagery.
S M Kosslyn, G Ganis, W L Thompson. Nat Rev Neurosci 2001
719
12


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.