Population Coding of Stimulus Location in Rat Somatosensory Cortex

[1]  Adrienne L. Fairhall,et al.  Efficiency and ambiguity in an adaptive neural code , 2001, Nature.

[2]  P. Latham,et al.  Retinal ganglion cells act largely as independent encoders , 2001, Nature.

[3]  Rufin van Rullen,et al.  Rate Coding Versus Temporal Order Coding: What the Retinal Ganglion Cells Tell the Visual Cortex , 2001, Neural Computation.

[4]  Rick L. Jenison,et al.  Decoding first-spike latency: A likelihood approach , 2001, Neurocomputing.

[5]  T. Baker,et al.  Odour-plume dynamics influence the brain's olfactory code , 2001, Nature.

[6]  M. Diamond,et al.  The Role of Spike Timing in the Coding of Stimulus Location in Rat Somatosensory Cortex , 2001, Neuron.

[7]  F. Mechler,et al.  Temporal coding of contrast in primary visual cortex: when, what, and why. , 2001, Journal of neurophysiology.

[8]  W. Bair,et al.  Correlated Firing in Macaque Visual Area MT: Time Scales and Relationship to Behavior , 2001, The Journal of Neuroscience.

[9]  S Panzeri,et al.  Temporal correlations and neural spike train entropy. , 2001, Physical review letters.

[10]  Stefano Panzeri,et al.  A Unified Approach to the Study of Temporal, Correlational, and Rate Coding , 1999, Neural Computation.

[11]  M W Jung,et al.  Relationship among Discharges of Neighboring Neurons in the Rat Prefrontal Cortex During Spatial Working Memory Tasks , 2000, The Journal of Neuroscience.

[12]  M. Diamond,et al.  Spatial–Temporal Distribution of Whisker-Evoked Activity in Rat Somatosensory Cortex and the Coding of Stimulus Location , 2000, The Journal of Neuroscience.

[13]  William Bialek,et al.  Synergy in a Neural Code , 2000, Neural Computation.

[14]  Christopher R. Stambaugh,et al.  Encoding of Tactile Stimulus Location by Somatosensory Thalamocortical Ensembles , 2000, The Journal of Neuroscience.

[15]  H. Swadlow,et al.  The influence of single VB thalamocortical impulses on barrel columns of rabbit somatosensory cortex. , 2000, Journal of neurophysiology.

[16]  F. Mechler,et al.  Interspike Intervals, Receptive Fields, and Information Encoding in Primary Visual Cortex , 2000, The Journal of Neuroscience.

[17]  J. C. Middlebrooks,et al.  Coding of Sound-Source Location by Ensembles of Cortical Neurons , 2000, The Journal of Neuroscience.

[18]  M. Diamond,et al.  Experience-dependent plasticity of rat barrel cortex: redistribution of activity across barrel-columns. , 2000, Cerebral cortex.

[19]  E T Rolls,et al.  Correlations and the encoding of information in the nervous system , 1999, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[20]  I. Tetko,et al.  Spatiotemporal activity patterns of rat cortical neurons predict responses in a conditioned task. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[21]  D Kleinfeld,et al.  Anatomical loops and their electrical dynamics in relation to whisking by rat. , 1999, Somatosensory & motor research.

[22]  Peter Dayan,et al.  The Effect of Correlated Variability on the Accuracy of a Population Code , 1999, Neural Computation.

[23]  Dean V. Buonomano,et al.  A Neural Network Model of Temporal Code Generation and Position-Invariant Pattern Recognition , 1999, Neural Computation.

[24]  D. Perrett,et al.  The `Ideal Homunculus': decoding neural population signals , 1998, Trends in Neurosciences.

[25]  T. Albright,et al.  Efficient Discrimination of Temporal Patterns by Motion-Sensitive Neurons in Primate Visual Cortex , 1998, Neuron.

[26]  A. P. Georgopoulos,et al.  Variability and Correlated Noise in the Discharge of Neurons in Motor and Parietal Areas of the Primate Cortex , 1998, The Journal of Neuroscience.

[27]  A. Aertsen,et al.  Spike synchronization and rate modulation differentially involved in motor cortical function. , 1997, Science.

[28]  Pamela Reinagel,et al.  Decoding visual information from a population of retinal ganglion cells. , 1997, Journal of neurophysiology.

[29]  Michael J. Berry,et al.  The structure and precision of retinal spike trains. , 1997, Proceedings of the National Academy of Sciences of the United States of America.

[30]  Stefano Panzeri,et al.  How Well Can We Estimate the Information Carried in Neuronal Responses from Limited Samples? , 1997, Neural Computation.

[31]  V. Mountcastle The columnar organization of the neocortex. , 1997, Brain : a journal of neurology.

[32]  A. Treves,et al.  The representational capacity of the distributed encoding of information provided by populations of neurons in primate temporal visual cortex , 1997, Experimental Brain Research.

[33]  B. Richmond,et al.  Latency: another potential code for feature binding in striate cortex. , 1996, Journal of neurophysiology.

[34]  R. Christopher deCharms,et al.  Primary cortical representation of sounds by the coordination of action-potential timing , 1996, Nature.

[35]  Herman P. Snippe,et al.  Parameter Extraction from Population Codes: A Critical Assessment , 1996, Neural Computation.

[36]  D J Simons,et al.  Quantitative effects of GABA and bicuculline methiodide on receptive field properties of neurons in real and simulated whisker barrels. , 1996, Journal of neurophysiology.

[37]  Stefano Panzeri,et al.  Analytical estimates of limited sampling biases in different information measures. , 1996, Network.

[38]  Michael DeWeese,et al.  Optimization Principles for the Neural Code , 1995, NIPS.

[39]  A. Aertsen,et al.  Dynamics of neuronal interactions in monkey cortex in relation to behavioural events , 1995, Nature.

[40]  Ehud Zohary,et al.  Correlated neuronal discharge rate and its implications for psychophysical performance , 1994, Nature.

[41]  E. Vaadia,et al.  Spatiotemporal firing patterns in the frontal cortex of behaving monkeys. , 1993, Journal of neurophysiology.

[42]  R. Weinberg,et al.  Neurons in rat cerebral cortex that synthesize nitric oxide: NADPH diaphorase histochemistry, NOS immunocytochemistry, and colocalization with GABA , 1993, Neuroscience Letters.

[43]  TJ Gawne,et al.  How independent are the messages carried by adjacent inferior temporal cortical neurons? , 1993, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[44]  D J Simons,et al.  Thalamocortical response transformations in simulated whisker barrels , 1993, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[45]  R. Lin,et al.  Thalamic afferents of the rat barrel cortex: a light- and electron-microscopic study using Phaseolus vulgaris leucoagglutinin as an anterograde tracer. , 1993, Somatosensory & motor research.

[46]  William Bialek,et al.  Reading a Neural Code , 1991, NIPS.

[47]  W. Singer,et al.  Oscillatory responses in cat visual cortex exhibit inter-columnar synchronization which reflects global stimulus properties , 1989, Nature.

[48]  M. Armstrong‐James,et al.  Spatiotemporal convergence and divergence in the rat S1 “Barrel” cortex , 1987, The Journal of comparative neurology.

[49]  D. Simons,et al.  Morphology of Golgi‐Cox‐impregnated barrel neurons in rat SmI cortex , 1984, The Journal of comparative neurology.

[50]  C. Welker Microelectrode delineation of fine grain somatotopic organization of (SmI) cerebral neocortex in albino rat. , 1971, Brain research.

[51]  T. Woolsey,et al.  The structural organization of layer IV in the somatosensory region (S I) of mouse cerebral cortex , 1970 .

[52]  T. Woolsey,et al.  The structural organization of layer IV in the somatosensory region (SI) of mouse cerebral cortex. The description of a cortical field composed of discrete cytoarchitectonic units. , 1970, Brain research.