Suppressive Traveling Waves Shape Representations of Illusory Motion in Primary Visual Cortex of Awake Primate
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Alain Destexhe | Laurent Perrinet | Alexandre Reynaud | Laurent Udo Perrinet | Frédéric Chavane | Sandrine Chemla | Matteo di Volo | Yann Zerlaut | F. Chavane | A. Destexhe | Y. Zerlaut | M. di Volo | A. Reynaud | S. Chemla
[1] Tatsuo K Sato,et al. Traveling Waves in Visual Cortex , 2012, Neuron.
[2] Xiao-Jing Wang,et al. Mean-Field Theory of Irregularly Spiking Neuronal Populations and Working Memory in Recurrent Cortical Networks , 2003 .
[3] H. Sompolinsky,et al. The Impact of Structural Heterogeneity on Excitation-Inhibition Balance in Cortical Networks , 2016, Neuron.
[4] Terrence J. Sejnowski,et al. RAPID STATE SWITCHING IN BALANCED CORTICAL NETWORK MODELS , 1995 .
[5] Gregor Schöner,et al. Temporal Asymmetry in Dark–Bright Processing Initiates Propagating Activity across Primary Visual Cortex , 2016, The Journal of Neuroscience.
[6] F. Chavane,et al. Imaging cortical correlates of illusion in early visual cortex , 2004, Nature.
[7] S. McKee,et al. Detecting a trajectory embedded in random-direction motion noise , 1995, Vision Research.
[8] Bevil R. Conway,et al. Spatiotemporal Structure of Nonlinear Subunits in Macaque Visual Cortex , 2006, The Journal of Neuroscience.
[9] J. Movshon,et al. Motion Integration by Neurons in Macaque MT Is Local, Not Global , 2007, The Journal of Neuroscience.
[10] D. Mumford,et al. The role of the primary visual cortex in higher level vision , 1998, Vision Research.
[11] L. Abbott,et al. Neural network dynamics. , 2005, Annual review of neuroscience.
[12] V. Bringuier,et al. The visual cortical association field: A Gestalt concept or a psychophysiological entity? , 2000, Journal of Physiology-Paris.
[13] Yves Frégnac,et al. Synaptic Correlates of Low-Level Perception in V1 , 2016, The Journal of Neuroscience.
[14] Rainer Goebel,et al. Apparent Motion: Event-Related Functional Magnetic Resonance Imaging of Perceptual Switches and States , 2002, The Journal of Neuroscience.
[15] D. Kahneman,et al. The reviewing of object files: Object-specific integration of information , 1992, Cognitive Psychology.
[16] J. Meere. The role of attention. , 2002 .
[17] C. Gross,et al. Visuotopic organization and extent of V3 and V4 of the macaque , 1988, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[18] D. Mumford,et al. On the computational architecture of the neocortex , 2004, Biological Cybernetics.
[19] Evan S. Schaffer,et al. Inhibitory Stabilization of the Cortical Network Underlies Visual Surround Suppression , 2009, Neuron.
[20] Lars Muckli,et al. Primary Visual Cortex Activity along the Apparent-Motion Trace Reflects Illusory Perception , 2005, PLoS biology.
[21] C. Blakemore,et al. Lateral inhibition between orientation detectors in the cat's visual cortex , 2004, Experimental Brain Research.
[22] D. Mumford. On the computational architecture of the neocortex , 2004, Biological Cybernetics.
[23] P. Roland,et al. Cortical feedback depolarization waves: A mechanism of top-down influence on early visual areas , 2006, Proceedings of the National Academy of Sciences.
[24] R. Frostig,et al. Cortical point-spread function and long-range lateral interactions revealed by real-time optical imaging of macaque monkey primary visual cortex , 1994, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[25] R. Vautin,et al. Magnification factor and receptive field size in foveal striate cortex of the monkey , 2004, Experimental Brain Research.
[26] Ulrike Goldschmidt,et al. An Introduction To The Theory Of Point Processes , 2016 .
[27] W. Newsome,et al. Motion selectivity in macaque visual cortex. II. Spatiotemporal range of directional interactions in MT and V1. , 1986, Journal of neurophysiology.
[28] D. Burr,et al. Motion psychophysics: 1985–2010 , 2011, Vision Research.
[29] J. Movshon,et al. Selectivity and spatial distribution of signals from the receptive field surround in macaque V1 neurons. , 2002, Journal of neurophysiology.
[30] P. Adorján,et al. Axonal topography of cortical basket cells in relation to orientation, direction, and ocular dominance maps , 2001, The Journal of comparative neurology.
[31] M. Carandini,et al. Normalization as a canonical neural computation , 2011, Nature Reviews Neuroscience.
[32] H. Neumann,et al. The Role of Attention in Figure-Ground Segregation in Areas V1 and V4 of the Visual Cortex , 2012, Neuron.
[33] F. Chavane,et al. Voltage-sensitive dye imaging: Technique review and models , 2010, Journal of Physiology-Paris.
[34] J. Bullier. Integrated model of visual processing , 2001, Brain Research Reviews.
[35] Lars Muckli,et al. The Timing of Feedback to Early Visual Cortex in the Perception of Long-Range Apparent Motion , 2008, Cerebral cortex.
[36] Wolfram Erlhagen,et al. Space and Time in Perception and Action: Bridging the gap: a model of common neural mechanisms underlying the Fröhlich effect, the flash-lag effect, and the representational momentum effect , 2010 .
[37] Lance M. Optican,et al. Unix-based multiple-process system, for real-time data acquisition and control , 1982 .
[38] Terrence J. Sejnowski,et al. Cortical travelling waves: mechanisms and computational principles , 2018, Nature Reviews Neuroscience.
[39] J. Maunsell,et al. Responses of neurons in the parietal and temporal visual pathways during a motion task , 1994, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[40] Christian Igel,et al. A Dynamic Neural Field Model of Mesoscopic Cortical Activity Captured with Voltage-Sensitive Dye Imaging , 2010, PLoS Comput. Biol..
[41] Martin Stetter. The Early Visual System of Macaque Monkeys , 2002 .
[42] Alex S. Ferecskó,et al. Model‐based analysis of excitatory lateral connections in the visual cortex , 2006, The Journal of comparative neurology.
[43] H. Sompolinsky,et al. Chaos in Neuronal Networks with Balanced Excitatory and Inhibitory Activity , 1996, Science.
[44] Yan Zhuo,et al. Contributions of the Visual Ventral Pathway to Long-Range Apparent Motion , 2003, Science.
[45] Amir C. Akhavan,et al. Parametric Population Representation of Retinal Location: Neuronal Interaction Dynamics in Cat Primary Visual Cortex , 1999, The Journal of Neuroscience.
[46] Pavel Benes,et al. Visual field. , 2013, Collegium antropologicum.
[47] John H. R. Maunsell,et al. The visual field representation in striate cortex of the macaque monkey: Asymmetries, anisotropies, and individual variability , 1984, Vision Research.
[48] P. Cavanagh,et al. Motion: the long and short of it. , 1989, Spatial vision.
[49] F. Chavane,et al. Dynamics of Local Input Normalization Result from Balanced Short- and Long-Range Intracortical Interactions in Area V1 , 2012, The Journal of Neuroscience.
[50] Esko Valkeila,et al. An Introduction to the Theory of Point Processes, Volume II: General Theory and Structure, 2nd Edition by Daryl J. Daley, David Vere‐Jones , 2008 .
[51] J. Ternus. Experimentelle Untersuchungen über phänomenale Identität , 1926 .
[52] Frédéric Chavane,et al. A biophysical cortical column model to study the multi-component origin of the VSDI signal , 2010, NeuroImage.
[53] P A Salin,et al. Corticocortical connections in the visual system: structure and function. , 1995, Physiological reviews.
[54] Paul A. Kolers. THEORIES OF APPARENT MOTION , 1972 .
[55] F. Chavane,et al. The stimulus-evoked population response in visual cortex of awake monkey is a propagating wave , 2014, Nature Communications.
[56] Alain Destexhe,et al. Biologically realistic mean-field models of conductancebased networks of spiking neurons with adaptation , 2018, bioRxiv.
[57] A. Destexhe,et al. Enhanced Responsiveness and Low-Level Awareness in Stochastic Network States , 2017, Neuron.
[58] O J Braddick,et al. Low-level and high-level processes in apparent motion. , 1980, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.
[59] Guillaume S. Masson,et al. Motion-Based Prediction Is Sufficient to Solve the Aperture Problem , 2012, Neural Computation.
[60] Nikola T. Markov,et al. Weight Consistency Specifies Regularities of Macaque Cortical Networks , 2010, Cerebral cortex.
[61] Eero P. Simoncelli,et al. How MT cells analyze the motion of visual patterns , 2006, Nature Neuroscience.
[62] J. B. Levitt,et al. Circuits for Local and Global Signal Integration in Primary Visual Cortex , 2002, The Journal of Neuroscience.
[63] D Mumford,et al. On the computational architecture of the neocortex. II. The role of cortico-cortical loops. , 1992, Biological cybernetics.
[64] Akitoshi Hanazawa,et al. Cortical Dynamics Subserving Visual Apparent Motion , 2008, Cerebral cortex.
[65] R. Desimone,et al. Local precision of visuotopic organization in the middle temporal area (MT) of the macaque , 2004, Experimental Brain Research.
[66] Amiram Grinvald,et al. VSDI: a new era in functional imaging of cortical dynamics , 2004, Nature Reviews Neuroscience.
[67] Gustavo Deco,et al. The role of multi-area interactions for the computation of apparent motion , 2010, NeuroImage.
[68] E H Adelson,et al. Spatiotemporal energy models for the perception of motion. , 1985, Journal of the Optical Society of America. A, Optics and image science.
[69] S Ullman,et al. Two Dimensionality of the Correspondence Process in Apparent Motion , 1978, Perception.
[70] Eyal Seidemann,et al. The relationship between voltage-sensitive dye imaging signals and spiking activity of neural populations in primate V1. , 2012, Journal of neurophysiology.
[71] C. Gilbert,et al. Cortical dynamics , 1997, Acta paediatrica (Oslo, Norway : 1992). Supplement.
[72] A. Grinvald,et al. Long-term voltage-sensitive dye imaging reveals cortical dynamics in behaving monkeys. , 2002, Journal of neurophysiology.
[73] V. Bringuier,et al. Horizontal propagation of visual activity in the synaptic integration field of area 17 neurons. , 1999, Science.
[74] Alain Destexhe,et al. Modeling mesoscopic cortical dynamics using a mean-field model of conductance-based networks of adaptive exponential integrate-and-fire neurons , 2017, bioRxiv.
[75] W. Newsome,et al. Motion selectivity in macaque visual cortex. I. Mechanisms of direction and speed selectivity in extrastriate area MT. , 1986, Journal of neurophysiology.
[76] Lars Muckli,et al. TMS Over V5 Disrupts Motion Prediction , 2013, Cerebral cortex.
[77] Liang She,et al. Priming with real motion biases visual cortical response to bistable apparent motion , 2012, Proceedings of the National Academy of Sciences.
[78] B. McNaughton,et al. Paradoxical Effects of External Modulation of Inhibitory Interneurons , 1997, The Journal of Neuroscience.
[79] Bevil R. Conway,et al. Toward a Unified Theory of Visual Area V4 , 2012, Neuron.
[80] J. Anthony Movshon,et al. Dissociation of Neuronal and Psychophysical Responses to Local and Global Motion , 2011, Current Biology.
[81] Nicole C. Rust,et al. Do We Know What the Early Visual System Does? , 2005, The Journal of Neuroscience.