Albrecht DG, Geisler WS, Frazor RA, Crane AM. (2002). Visual cortex neurons of monkeys and cats: temporal dynamics of the contrast response function. Journal of neurophysiology. 88 [PubMed]
Bell AJ, Sejnowski TJ. (1997). The "independent components" of natural scenes are edge filters. Vision research. 37 [PubMed]
Berkes P, Wiskott L. (2005). Slow feature analysis yields a rich repertoire of complex cell properties. Journal of vision. 5 [PubMed]
Brette R, Guigon E. (2003). Reliability of spike timing is a general property of spiking model neurons. Neural computation. 15 [PubMed]
Butts DA et al. (2007). Temporal precision in the neural code and the timescales of natural vision. Nature. 449 [PubMed]
Cai D, DeAngelis GC, Freeman RD. (1997). Spatiotemporal receptive field organization in the lateral geniculate nucleus of cats and kittens. Journal of neurophysiology. 78 [PubMed]
Caporale N, Dan Y. (2008). Spike timing-dependent plasticity: a Hebbian learning rule. Annual review of neuroscience. 31 [PubMed]
Carandini M, Horton JC, Sincich LC. (2007). Thalamic filtering of retinal spike trains by postsynaptic summation. Journal of vision. 7 [PubMed]
Celebrini S, Thorpe S, Trotter Y, Imbert M. (1993). Dynamics of orientation coding in area V1 of the awake primate. Visual neuroscience. 10 [PubMed]
Chapman B, Zahs KR, Stryker MP. (1991). Relation of cortical cell orientation selectivity to alignment of receptive fields of the geniculocortical afferents that arborize within a single orientation column in ferret visual cortex. The Journal of neuroscience : the official journal of the Society for Neuroscience. 11 [PubMed]
Chase SM, Young ED. (2007). First-spike latency information in single neurons increases when referenced to population onset. Proceedings of the National Academy of Sciences of the United States of America. 104 [PubMed]
Chung S, Ferster D. (1998). Strength and orientation tuning of the thalamic input to simple cells revealed by electrically evoked cortical suppression. Neuron. 20 [PubMed]
Desbordes G et al. (2008). Timing precision in population coding of natural scenes in the early visual system. PLoS biology. 6 [PubMed]
Einhäuser W, Kayser C, König P, Körding KP. (2002). Learning the invariance properties of complex cells from their responses to natural stimuli. The European journal of neuroscience. 15 [PubMed]
Enroth-Cugell C, Robson JG, Schweitzer-Tong DE, Watson AB. (1983). Spatio-temporal interactions in cat retinal ganglion cells showing linear spatial summation. The Journal of physiology. 341 [PubMed]
Ferster D, Chung S, Wheat H. (1996). Orientation selectivity of thalamic input to simple cells of cat visual cortex. Nature. 380 [PubMed]
Fukushima K. (1980). Neocognitron: a self organizing neural network model for a mechanism of pattern recognition unaffected by shift in position. Biological cybernetics. 36 [PubMed]
Gawne TJ, Kjaer TW, Richmond BJ. (1996). Latency: another potential code for feature binding in striate cortex. Journal of neurophysiology. 76 [PubMed]
Gerstner W, Ritz R, van Hemmen JL. (1993). Why spikes? Hebbian learning and retrieval of time-resolved excitation patterns. Biological cybernetics. 69 [PubMed]
Gilson M, Masquelier T, Hugues E. (2011). STDP allows fast rate-modulated coding with Poisson-like spike trains. PLoS computational biology. 7 [PubMed]
Gollisch T, Meister M. (2008). Rapid neural coding in the retina with relative spike latencies. Science (New York, N.Y.). 319 [PubMed]
Guyonneau R, VanRullen R, Thorpe SJ. (2005). Neurons tune to the earliest spikes through STDP. Neural computation. 17 [PubMed]
HUBEL DH, WIESEL TN. (1962). Receptive fields, binocular interaction and functional architecture in the cat's visual cortex. The Journal of physiology. 160 [PubMed]
Hung CP, Kreiman G, Poggio T, DiCarlo JJ. (2005). Fast readout of object identity from macaque inferior temporal cortex. Science (New York, N.Y.). 310 [PubMed]
Hyvärinen A, Hoyer PO. (2001). A two-layer sparse coding model learns simple and complex cell receptive fields and topography from natural images. Vision research. 41 [PubMed]
Johansson RS, Birznieks I. (2004). First spikes in ensembles of human tactile afferents code complex spatial fingertip events. Nature neuroscience. 7 [PubMed]
Kara P, Reinagel P, Reid RC. (2000). Low response variability in simultaneously recorded retinal, thalamic, and cortical neurons. Neuron. 27 [PubMed]
Keat J, Reinagel P, Reid RC, Meister M. (2001). Predicting every spike: a model for the responses of visual neurons. Neuron. 30 [PubMed]
König P, Engel AK, Singer W. (1996). Integrator or coincidence detector? The role of the cortical neuron revisited. Trends in neurosciences. 19 [PubMed]
Körding KP, Kayser C, Einhäuser W, König P. (2004). How are complex cell properties adapted to the statistics of natural stimuli? Journal of neurophysiology. 91 [PubMed]
Liu H, Agam Y, Madsen JR, Kreiman G. (2009). Timing, timing, timing: fast decoding of object information from intracranial field potentials in human visual cortex. Neuron. 62 [PubMed]
Martinez-Conde S, Macknik SL, Hubel DH. (2004). The role of fixational eye movements in visual perception. Nature reviews. Neuroscience. 5 [PubMed]
Masquelier T, Guyonneau R, Thorpe SJ. (2008). Spike timing dependent plasticity finds the start of repeating patterns in continuous spike trains. PloS one. 3 [PubMed]
Masquelier T, Guyonneau R, Thorpe SJ. (2009). Competitive STDP-based spike pattern learning. Neural computation. 21 [PubMed]
Masquelier T, Hugues E, Deco G, Thorpe SJ. (2009). Oscillations, phase-of-firing coding, and spike timing-dependent plasticity: an efficient learning scheme. The Journal of neuroscience : the official journal of the Society for Neuroscience. 29 [PubMed]
Masquelier T, Thorpe SJ. (2007). Unsupervised learning of visual features through spike timing dependent plasticity. PLoS computational biology. 3 [PubMed]
Montemurro MA, Rasch MJ, Murayama Y, Logothetis NK, Panzeri S. (2008). Phase-of-firing coding of natural visual stimuli in primary visual cortex. Current biology : CB. 18 [PubMed]
Olshausen BA, Field DJ. (1996). Emergence of simple-cell receptive field properties by learning a sparse code for natural images. Nature. 381 [PubMed]
Oram MW, Perrett DI. (1992). Time course of neural responses discriminating different views of the face and head. Journal of neurophysiology. 68 [PubMed]
Panzeri S, Diamond ME. (2010). Information Carried by Population Spike Times in the Whisker Sensory Cortex can be Decoded Without Knowledge of Stimulus Time. Frontiers in synaptic neuroscience. 2 [PubMed]
Puchalla JL, Schneidman E, Harris RA, Berry MJ. (2005). Redundancy in the population code of the retina. Neuron. 46 [PubMed]
Rehn M, Sommer FT. (2007). A network that uses few active neurones to code visual input predicts the diverse shapes of cortical receptive fields. Journal of computational neuroscience. 22 [PubMed]
Riesenhuber M, Poggio T. (1999). Hierarchical models of object recognition in cortex. Nature neuroscience. 2 [PubMed]
Rolls ET, Milward T. (2000). A model of invariant object recognition in the visual system: learning rules, activation functions, lateral inhibition, and information-based performance measures. Neural computation. 12 [PubMed]
Serre T, Oliva A, Poggio T. (2007). A feedforward architecture accounts for rapid categorization. Proceedings of the National Academy of Sciences of the United States of America. 104 [PubMed]
Singer W, Tretter F, Cynader M. (1975). Organization of cat striate cortex: a correlation of receptive-field properties with afferent and efferent connections. Journal of neurophysiology. 38 [PubMed]
Song S, Miller KD, Abbott LF. (2000). Competitive Hebbian learning through spike-timing-dependent synaptic plasticity. Nature neuroscience. 3 [PubMed]
Stevenson IH, Kording KP. (2011). How advances in neural recording affect data analysis. Nature neuroscience. 14 [PubMed]
Stringer SM, Rolls ET. (2000). Position invariant recognition in the visual system with cluttered environments. Neural networks : the official journal of the International Neural Network Society. 13 [PubMed]
Thorpe S, Fize D, Marlot C. (1996). Speed of processing in the human visual system. Nature. 381 [PubMed]
Ullman S, Vidal-Naquet M, Sali E. (2002). Visual features of intermediate complexity and their use in classification. Nature neuroscience. 5 [PubMed]
Van Rullen R, Gautrais J, Delorme A, Thorpe S. (1998). Face processing using one spike per neurone. Bio Systems. 48 [PubMed]
Van Rullen R, Thorpe SJ. (2001). Rate coding versus temporal order coding: what the retinal ganglion cells tell the visual cortex. Neural computation. 13 [PubMed]
VanRullen R, Thorpe SJ. (2002). Surfing a spike wave down the ventral stream. Vision research. 42 [PubMed]
Vinje WE, Gallant JL. (2000). Sparse coding and decorrelation in primary visual cortex during natural vision. Science (New York, N.Y.). 287 [PubMed]
Wallis G, Rolls ET. (1997). Invariant face and object recognition in the visual system. Progress in neurobiology. 51 [PubMed]
Wilson JR, Sherman SM. (1976). Receptive-field characteristics of neurons in cat striate cortex: Changes with visual field eccentricity. Journal of neurophysiology. 39 [PubMed]
Wiskott L, Sejnowski TJ. (2002). Slow feature analysis: unsupervised learning of invariances. Neural computation. 14 [PubMed]
Wohrer A, Kornprobst P. (2009). Virtual Retina: a biological retina model and simulator, with contrast gain control. Journal of computational neuroscience. 26 [PubMed]
Wörgötter F, Nelle E, Li B, Funke K. (1998). The influence of corticofugal feedback on the temporal structure of visual responses of cat thalamic relay cells. The Journal of physiology. 509 ( Pt 3) [PubMed]
van Hateren JH, Ruderman DL. (1998). Independent component analysis of natural image sequences yields spatio-temporal filters similar to simple cells in primary visual cortex. Proceedings. Biological sciences. 265 [PubMed]
van Hateren JH, van der Schaaf A. (1998). Independent component filters of natural images compared with simple cells in primary visual cortex. Proceedings. Biological sciences. 265 [PubMed]
van Rossum MC, Bi GQ, Turrigiano GG. (2000). Stable Hebbian learning from spike timing-dependent plasticity. The Journal of neuroscience : the official journal of the Society for Neuroscience. 20 [PubMed]
Chauhan T, Masquelier T, Montlibert A, Cottereau BR. (2018). Emergence of Binocular Disparity Selectivity through Hebbian Learning. The Journal of neuroscience : the official journal of the Society for Neuroscience. 38 [PubMed]
King PD, Zylberberg J, DeWeese MR. (2013). Inhibitory interneurons decorrelate excitatory cells to drive sparse code formation in a spiking model of V1. The Journal of neuroscience : the official journal of the Society for Neuroscience. 33 [PubMed]
Masquelier T, Portelli G, Kornprobst P. (2016). Microsaccades enable efficient synchrony-based coding in the retina: a simulation study. Scientific reports. 6 [PubMed]