A citation-based method for searching scientific literature

R C deCharms, D T Blake, M M Merzenich. Science 1998
Times Cited: 306







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



Times Cited
  Times     Co-cited
Similarity



Linearity of cortical receptive fields measured with natural sounds.
Christian K Machens, Michael S Wehr, Anthony M Zador. J Neurosci 2004
194
30


Rapid task-related plasticity of spectrotemporal receptive fields in primary auditory cortex.
Jonathan Fritz, Shihab Shamma, Mounya Elhilali, David Klein. Nat Neurosci 2003
500
29

Nonlinear spectrotemporal sound analysis by neurons in the auditory midbrain.
Monty A Escabi, Christoph E Schreiner. J Neurosci 2002
142
29

Cooperative nonlinearities in auditory cortical neurons.
Craig A Atencio, Tatyana O Sharpee, Christoph E Schreiner. Neuron 2008
88
30



Spectrotemporal receptive fields in the lemniscal auditory thalamus and cortex.
Lee M Miller, Monty A Escabí, Heather L Read, Christoph E Schreiner. J Neurophysiol 2002
219
26

The consequences of response nonlinearities for interpretation of spectrotemporal receptive fields.
G Björn Christianson, Maneesh Sahani, Jennifer F Linden. J Neurosci 2008
82
30

Robust spectrotemporal reverse correlation for the auditory system: optimizing stimulus design.
D J Klein, D A Depireux, J Z Simon, S A Shamma. J Comput Neurosci 2000
154
25

Spectrotemporal structure of receptive fields in areas AI and AAF of mouse auditory cortex.
Jennifer F Linden, Robert C Liu, Maneesh Sahani, Christoph E Schreiner, Michael M Merzenich. J Neurophysiol 2003
154
23


Contrast gain control in auditory cortex.
Neil C Rabinowitz, Ben D B Willmore, Jan W H Schnupp, Andrew J King. Neuron 2011
134
22

Spectrotemporal contrast kernels for neurons in primary auditory cortex.
Neil C Rabinowitz, Ben D B Willmore, Jan W H Schnupp, Andrew J King. J Neurosci 2012
43
46

Tuning for spectro-temporal modulations as a mechanism for auditory discrimination of natural sounds.
Sarah M N Woolley, Thane E Fremouw, Anne Hsu, Frédéric E Theunissen. Nat Neurosci 2005
174
19

Spectrotemporal receptive fields in anesthetized cat primary auditory cortex are context dependent.
Boris Gourévitch, Arnaud Noreña, Gregory Shaw, Jos J Eggermont. Cereb Cortex 2009
38
47

Estimating spatio-temporal receptive fields of auditory and visual neurons from their responses to natural stimuli.
F E Theunissen, S V David, N C Singh, A Hsu, W E Vinje, J L Gallant. Network 2001
216
18

Analyzing neural responses to natural signals: maximally informative dimensions.
Tatyana Sharpee, Nicole C Rust, William Bialek. Neural Comput 2004
181
18



A generalized linear model for estimating spectrotemporal receptive fields from responses to natural sounds.
Ana Calabrese, Joseph W Schumacher, David M Schneider, Liam Paninski, Sarah M N Woolley. PLoS One 2011
69
24

Sound representation methods for spectro-temporal receptive field estimation.
Patrick Gill, Junli Zhang, Sarah M N Woolley, Thane Fremouw, Frédéric E Theunissen. J Comput Neurosci 2006
60
26

Modulation spectra of natural sounds and ethological theories of auditory processing.
Nandini C Singh, Frédéric E Theunissen. J Acoust Soc Am 2003
259
15

Linear processing of spatial cues in primary auditory cortex.
J W Schnupp, T D Mrsic-Flogel, A J King. Nature 2001
95
14

Estimating sparse spectro-temporal receptive fields with natural stimuli.
Stephen V David, Nima Mesgarani, Shihab A Shamma. Network 2007
74
18

Integration over multiple timescales in primary auditory cortex.
Stephen V David, Shihab A Shamma. J Neurosci 2013
40
35

Dynamic spectrotemporal feature selectivity in the auditory midbrain.
Nicholas A Lesica, Benedikt Grothe. J Neurosci 2008
47
27

Changes of AI receptive fields with sound density.
David T Blake, Michael M Merzenich. J Neurophysiol 2002
64
20


Complete functional characterization of sensory neurons by system identification.
Michael C-K Wu, Stephen V David, Jack L Gallant. Annu Rev Neurosci 2006
168
13

Processing of low-probability sounds by cortical neurons.
Nachum Ulanovsky, Liora Las, Israel Nelken. Nat Neurosci 2003
638
13

Sustained firing in auditory cortex evoked by preferred stimuli.
Xiaoqin Wang, Thomas Lu, Ross K Snider, Li Liang. Nature 2005
248
12

Hierarchical computation in the canonical auditory cortical circuit.
Craig A Atencio, Tatyana O Sharpee, Christoph E Schreiner. Proc Natl Acad Sci U S A 2009
72
16

Triggered correlation.
R de Boer, P Kuyper. IEEE Trans Biomed Eng 1968
291
12


Reconstructing speech from human auditory cortex.
Brian N Pasley, Stephen V David, Nima Mesgarani, Adeen Flinker, Shihab A Shamma, Nathan E Crone, Robert T Knight, Edward F Chang. PLoS Biol 2012
263
12

Neural population coding of sound level adapts to stimulus statistics.
Isabel Dean, Nicol S Harper, David McAlpine. Nat Neurosci 2005
310
12

Multiresolution spectrotemporal analysis of complex sounds.
Taishih Chi, Powen Ru, Shihab A Shamma. J Acoust Soc Am 2005
194
12

Inferring the role of inhibition in auditory processing of complex natural stimuli.
Nadja Schinkel-Bielefeld, Stephen V David, Shihab A Shamma, Daniel A Butts. J Neurophysiol 2012
17
70

Incorporating Midbrain Adaptation to Mean Sound Level Improves Models of Auditory Cortical Processing.
Ben D B Willmore, Oliver Schoppe, Andrew J King, Jan W H Schnupp, Nicol S Harper. J Neurosci 2016
23
52

Spatio-temporal correlations and visual signalling in a complete neuronal population.
Jonathan W Pillow, Jonathon Shlens, Liam Paninski, Alexander Sher, Alan M Litke, E J Chichilnisky, Eero P Simoncelli. Nature 2008
596
11



Spike-triggered neural characterization.
Odelia Schwartz, Jonathan W Pillow, Nicole C Rust, Eero P Simoncelli. J Vis 2006
239
11


Functional organization of ferret auditory cortex.
Jennifer K Bizley, Fernando R Nodal, Israel Nelken, Andrew J King. Cereb Cortex 2005
131
11

Temporal coherence and attention in auditory scene analysis.
Shihab A Shamma, Mounya Elhilali, Christophe Micheyl. Trends Neurosci 2011
206
11

Central auditory neurons have composite receptive fields.
Andrei S Kozlov, Timothy Q Gentner. Proc Natl Acad Sci U S A 2016
28
39



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.