Audio-visual synchrony and feature-selective attention co-amplify early visual processing

[1]  Marty G. Woldorff,et al.  The effects of attention on the temporal integration of multisensory stimuli , 2015, Front. Integr. Neurosci..

[2]  Dong Ming,et al.  Exploring Combinations of Auditory and Visual Stimuli for Gaze-Independent Brain-Computer Interfaces , 2014, PloS one.

[3]  Matthias M. Müller,et al.  Visual, auditory and tactile stimuli compete for early sensory processing capacities within but not between senses , 2014, NeuroImage.

[4]  Christian Keitel,et al.  Stimulus-Driven Brain Oscillations in the Alpha Range: Entrainment of Intrinsic Rhythms or Frequency-Following Response? , 2014, The Journal of Neuroscience.

[5]  Martin Eimer,et al.  The gradual emergence of spatially selective target processing in visual search: From feature-specific to object-based attentional control. , 2014, Journal of experimental psychology. Human perception and performance.

[6]  David Alais,et al.  Window of audio-visual simultaneity is unaffected by spatio-temporal visual clutter , 2014, Scientific Reports.

[7]  J. Obleser,et al.  Dynamic Range Adaptation to Spectral Stimulus Statistics in Human Auditory Cortex , 2014, The Journal of Neuroscience.

[8]  Emanuele Porcu,et al.  Concurrent visual and tactile steady-state evoked potentials index allocation of inter-modal attention: A frequency-tagging study , 2013, Neuroscience Letters.

[9]  Wolfgang Prinz,et al.  Prediction processes during multiple object tracking (MOT): involvement of dorsal and ventral premotor cortices , 2013, Brain and behavior.

[10]  Matthias M. Müller,et al.  Early visual and auditory processing rely on modality-specific attentional resources , 2013, NeuroImage.

[11]  Susan Denham,et al.  Multistability in auditory stream segregation: a predictive coding view , 2012, Philosophical Transactions of the Royal Society B: Biological Sciences.

[12]  Isabelle Peretz,et al.  Steady-state evoked potentials as an index of multisensory temporal binding , 2012, NeuroImage.

[13]  Steven L Franconeri,et al.  A simple proximity heuristic allows tracking of multiple objects through occlusion , 2012, Attention, perception & psychophysics.

[14]  Hubert Preissl,et al.  Steady-state responses in MEG demonstrate information integration within but not across the auditory and visual senses , 2011, NeuroImage.

[15]  Marcia Grabowecky,et al.  Differential Roles of Frequency-following and Frequency-doubling Visual Responses Revealed by Evoked Neural Harmonics , 2011, Journal of Cognitive Neuroscience.

[16]  Matthias M. Müller,et al.  Sustained selective intermodal attention modulates processing of language-like stimuli , 2011, Experimental Brain Research.

[17]  U. Noppeney,et al.  The contributions of transient and sustained response codes to audiovisual integration. , 2011, Cerebral cortex.

[18]  Jan Theeuwes,et al.  Early multisensory interactions affect the competition among multiple visual objects , 2011, NeuroImage.

[19]  D. Poeppel,et al.  The Elicitation of Audiovisual Steady-State Responses: Multi-Sensory Signal Congruity and Phase Effects , 2011, Brain Topography.

[20]  R. B. Reilly,et al.  FASTER: Fully Automated Statistical Thresholding for EEG artifact Rejection , 2010, Journal of Neuroscience Methods.

[21]  D. Senkowski,et al.  The multifaceted interplay between attention and multisensory integration , 2010, Trends in Cognitive Sciences.

[22]  Jan Theeuwes,et al.  Efficient Visual Search from Synchronized Auditory Signals Requires Transient Audiovisual Events , 2010, PloS one.

[23]  J. Vroomen,et al.  Perception of intersensory synchrony: A tutorial review , 2010, Attention, perception & psychophysics.

[24]  John J. Foxe,et al.  Anticipatory Attentional Suppression of Visual Features Indexed by Oscillatory Alpha-Band Power Increases:A High-Density Electrical Mapping Study , 2010, The Journal of Neuroscience.

[25]  C. Schroeder,et al.  The Leading Sense: Supramodal Control of Neurophysiological Context by Attention , 2009, Neuron.

[26]  Matthias M. Müller,et al.  Neural Mechanisms of Intermodal Sustained Selective Attention with Concurrently Presented Auditory and Visual Stimuli , 2009, Front. Hum. Neurosci..

[27]  Peter König,et al.  Visual stimulus locking of EEG is modulated by temporal congruency of auditory stimuli , 2009, Experimental Brain Research.

[28]  S. Nishida,et al.  Audio–tactile superiority over visuo–tactile and audio–visual combinations in the temporal resolution of synchrony perception , 2009, Experimental Brain Research.

[29]  J. G. Hollands,et al.  Confidence intervals in repeated-measures designs: The number of observations principle. , 2009, Canadian journal of experimental psychology = Revue canadienne de psychologie experimentale.

[30]  Matthias M. Müller,et al.  Effects of intermodal attention on the auditory steady-state response and the event-related potential. , 2009, Psychophysiology.

[31]  Steven A. Hillyard,et al.  Attention Facilitates Multiple Stimulus Features in Parallel in Human Visual Cortex , 2008, Current Biology.

[32]  Marvin M Chun,et al.  Spatiotemporal object continuity in human ventral visual cortex , 2008, Proceedings of the National Academy of Sciences.

[33]  Waka Fujisaki,et al.  Top-down feature-based selection of matching features for audio-visual synchrony discrimination , 2008, Neuroscience Letters.

[34]  O. Bertrand,et al.  Effects of Selective Attention on the Electrophysiological Representation of Concurrent Sounds in the Human Auditory Cortex , 2007, The Journal of Neuroscience.

[35]  J Artieda,et al.  Topography of cortical activation differs for fundamental and harmonic frequencies of the steady-state visual-evoked responses. An EEG and PET H215O study. , 2007, Cerebral cortex.

[36]  S A Hillyard,et al.  Feature-selective attention enhances color signals in early visual areas of the human brain , 2006, Proceedings of the National Academy of Sciences.

[37]  John H. R. Maunsell,et al.  Feature-based attention in visual cortex , 2006, Trends in Neurosciences.

[38]  L. Busse,et al.  The spread of attention across modalities and space in a multisensory object. , 2005, Proceedings of the National Academy of Sciences of the United States of America.

[39]  Waka Fujisaki,et al.  Temporal frequency characteristics of synchrony–asynchrony discrimination of audio-visual signals , 2005, Experimental Brain Research.

[40]  T. Picton,et al.  The effect of attention on the auditory steady-state response. , 2004, Neurology & clinical neurophysiology : NCN.

[41]  Arnaud Delorme,et al.  EEGLAB: an open source toolbox for analysis of single-trial EEG dynamics including independent component analysis , 2004, Journal of Neuroscience Methods.

[42]  S. A. Hillyard,et al.  Sustained division of the attentional spotlight , 2003, Nature.

[43]  G. Boynton,et al.  Global effects of feature-based attention in human visual cortex , 2002, Nature Neuroscience.

[44]  M. Leek Adaptive procedures in psychophysical research , 2001, Perception & psychophysics.

[45]  Stefan Treue,et al.  Feature-based attention influences motion processing gain in macaque visual cortex , 1999, Nature.

[46]  Matthias M. Müller,et al.  Effects of spatial selective attention on the steady-state visual evoked potential in the 20-28 Hz range. , 1998, Brain research. Cognitive brain research.

[47]  J. Wolfe,et al.  Guided Search 2.0 A revised model of visual search , 1994, Psychonomic bulletin & review.

[48]  N. Galloway Human Brain Electrophysiology: Evoked Potentials and Evoked Magnetic Fields in Science and Medicine , 1990 .

[49]  A. Treisman,et al.  A feature-integration theory of attention , 1980, Cognitive Psychology.

[50]  R. M. Boynton,et al.  Comparison of four methods of heterochromatic photometry. , 1972, Journal of the Optical Society of America.

[51]  J. Kluge Cognitive Electrophysiology Of Attention Signals Of The Mind , 2016 .

[52]  Matthias M. Müller Neural Mechanisms of Feature-Based Attention , 2014 .

[53]  J. Theeuwes,et al.  Pip and pop: nonspatial auditory signals improve spatial visual search. , 2008, Journal of experimental psychology. Human perception and performance.

[54]  Marcia Grabowecky,et al.  Attention induces synchronization-based response gain in steady-state visual evoked potentials , 2007, Nature Neuroscience.

[55]  Emiliano Macaluso,et al.  Multimodal spatial representations in the human parietal cortex: evidence from functional imaging. , 2003, Advances in neurology.

[56]  D. Regan Human brain electrophysiology: Evoked potentials and evoked magnetic fields in science and medicine , 1989 .