Published in Neuron on December 18, 2003
Crowding--an essential bottleneck for object recognition: a mini-review. Vision Res (2008) 3.68
Attention, intention, and priority in the parietal lobe. Annu Rev Neurosci (2010) 3.61
Active listening for spatial orientation in a complex auditory scene. PLoS Biol (2006) 2.59
Synaptic and network mechanisms of sparse and reliable visual cortical activity during nonclassical receptive field stimulation. Neuron (2010) 2.15
Eye guidance in natural vision: reinterpreting salience. J Vis (2011) 2.09
Does attention play a role in dynamic receptive field adaptation to changing acoustic salience in A1? Hear Res (2007) 1.61
Feature-based attention in the frontal eye field and area V4 during visual search. Neuron (2011) 1.58
Attention to stimulus features shifts spectral tuning of V4 neurons during natural vision. Neuron (2008) 1.48
Attention during natural vision warps semantic representation across the human brain. Nat Neurosci (2013) 1.36
Interactions of top-down and bottom-up mechanisms in human visual cortex. J Neurosci (2011) 1.11
Dynamic integration of information about salience and value for saccadic eye movements. Proc Natl Acad Sci U S A (2012) 1.10
A pure salience response in posterior parietal cortex. Cereb Cortex (2011) 1.06
Been there, seen that: a neural mechanism for performing efficient visual search. J Neurophysiol (2009) 1.05
Rapid simultaneous enhancement of visual sensitivity and perceived contrast during saccade preparation. J Neurosci (2012) 1.04
Sparse coding in striate and extrastriate visual cortex. J Neurophysiol (2011) 1.04
A three-dimensional spatiotemporal receptive field model explains responses of area MT neurons to naturalistic movies. J Neurosci (2011) 1.03
Changes in the response rate and response variability of area V4 neurons during the preparation of saccadic eye movements. J Neurophysiol (2009) 1.01
Attentional facilitation throughout human visual cortex lingers in retinotopic coordinates after eye movements. J Neurosci (2010) 1.01
Combined effects of spatial and feature-based attention on responses of V4 neurons. Vision Res (2008) 0.98
Stimulus-driven orienting of visuo-spatial attention in complex dynamic environments. Neuron (2011) 0.98
Reward-based transfer from bottom-up to top-down search tasks. Psychol Sci (2013) 0.97
Saliency and saccade encoding in the frontal eye field during natural scene search. Cereb Cortex (2013) 0.94
Attention and predictions: control of spatial attention beyond the endogenous-exogenous dichotomy. Front Hum Neurosci (2013) 0.93
Presaccadic discrimination of receptive field stimuli by area V4 neurons. Vision Res (2008) 0.93
Neuronal dynamics of bottom-up and top-down processes in area V4 of macaque monkeys performing a visual search. Exp Brain Res (2006) 0.92
Working memory and decision processes in visual area v4. Front Neurosci (2013) 0.91
Effects of peripheral visual field loss on eye movements during visual search. Front Psychol (2012) 0.91
Beyond correlation: do color features influence attention in rainforest? Front Hum Neurosci (2011) 0.90
A model of proto-object based saliency. Vision Res (2013) 0.90
Dynamic sensitivity of area V4 neurons during saccade preparation. Proc Natl Acad Sci U S A (2009) 0.86
How does language change perception: a cautionary note. Front Psychol (2012) 0.84
Sensory processing during viewing of cinematographic material: computational modeling and functional neuroimaging. Neuroimage (2012) 0.84
Attentional modulation of adaptation in V4. Eur J Neurosci (2009) 0.83
Visual memory during pauses between successive saccades. J Vis (2008) 0.83
The role of the lateral intraparietal area in orienting attention and its implications for visual search. Eur J Neurosci (2011) 0.83
Production, control, and visual guidance of saccadic eye movements. ISRN Neurol (2013) 0.82
Spatial attention, feature-based attention, and saccades: three sides of one coin? Biol Psychiatry (2011) 0.82
Overt attention toward oriented objects in free-viewing barn owls. Proc Natl Acad Sci U S A (2011) 0.80
Combined contributions of feedforward and feedback inputs to bottom-up attention. Front Psychol (2015) 0.80
Attentional dynamics of infant visual foraging. Proc Natl Acad Sci U S A (2012) 0.79
Superior colliculus neurons encode a visual saliency map during free viewing of natural dynamic video. Nat Commun (2017) 0.79
How is visual salience computed in the brain? Insights from behaviour, neurobiology and modelling. Philos Trans R Soc Lond B Biol Sci (2017) 0.78
Distributed processing of color and form in the visual cortex. Front Psychol (2014) 0.78
Activity in V4 reflects the direction, but not the latency, of saccades during visual search. J Neurophysiol (2010) 0.78
Olfaction spontaneously highlights visual saliency map. Proc Biol Sci (2013) 0.78
Evidence for differential top-down and bottom-up suppression in posterior parietal cortex. Philos Trans R Soc Lond B Biol Sci (2013) 0.78
Saccade Preparation Reshapes Sensory Tuning. Curr Biol (2016) 0.77
A computational model to link psychophysics and cortical cell activation patterns in human texture processing. J Comput Neurosci (2006) 0.76
Associative Learning Through Acquired Salience. Front Behav Neurosci (2016) 0.76
Neural activities in V1 create the bottom-up saliency map of natural scenes. Exp Brain Res (2016) 0.76
Active vision and visual activation in area V4. Neuron (2003) 0.75
Eye movement-invariant representations in the human visual system. J Vis (2017) 0.75
Neuronal responses support a role for orbitofrontal cortex in cognitive set reconfiguration. Eur J Neurosci (2017) 0.75
Orbitofrontal Cortex Value Signals Depend on Fixation Location during Free Viewing. Neuron (2016) 0.75
Object comparison in the lateral intraparietal area. J Neurophysiol (2017) 0.75
Infant viewing of social scenes is under genetic control and is atypical in autism. Nature (2017) 0.75
Identifying natural images from human brain activity. Nature (2008) 5.01
Do we know what the early visual system does? J Neurosci (2005) 2.59
A continuous semantic space describes the representation of thousands of object and action categories across the human brain. Neuron (2012) 2.58
Bayesian reconstruction of natural images from human brain activity. Neuron (2009) 2.44
Reconstructing visual experiences from brain activity evoked by natural movies. Curr Biol (2011) 2.29
Natural stimulus statistics alter the receptive field structure of v1 neurons. J Neurosci (2004) 2.29
Complete functional characterization of sensory neurons by system identification. Annu Rev Neurosci (2006) 2.15
Encoding and decoding in fMRI. Neuroimage (2010) 2.08
Predicting neuronal responses during natural vision. Network (2006) 1.71
Natural stimulation of the nonclassical receptive field increases information transmission efficiency in V1. J Neurosci (2002) 1.71
Spatial frequency and orientation tuning dynamics in area V1. Proc Natl Acad Sci U S A (2002) 1.67
Natural scene statistics account for the representation of scene categories in human visual cortex. Neuron (2013) 1.67
Topographic organization in and near human visual area V4. J Neurosci (2007) 1.63
Attention to stimulus features shifts spectral tuning of V4 neurons during natural vision. Neuron (2008) 1.48
Parametric reverse correlation reveals spatial linearity of retinotopic human V1 BOLD response. Neuroimage (2004) 1.44
Spectral receptive field properties explain shape selectivity in area V4. J Neurophysiol (2006) 1.41
Attention during natural vision warps semantic representation across the human brain. Nat Neurosci (2013) 1.36
Neural representation of natural images in visual area V2. J Neurosci (2010) 1.29
Time course of attention reveals different mechanisms for spatial and feature-based attention in area V4. Neuron (2005) 1.25
Toward a unified theory of visual area V4. Neuron (2012) 1.23
Modeling low-frequency fluctuation and hemodynamic response timecourse in event-related fMRI. Hum Brain Mapp (2008) 1.08
Sparse coding in striate and extrastriate visual cortex. J Neurophysiol (2011) 1.04
A three-dimensional spatiotemporal receptive field model explains responses of area MT neurons to naturalistic movies. J Neurosci (2011) 1.03
Combined effects of spatial and feature-based attention on responses of V4 neurons. Vision Res (2008) 0.98
I can see what you see. Nat Neurosci (2009) 0.97
Cortical representation of animate and inanimate objects in complex natural scenes. J Physiol Paris (2012) 0.92
Working memory and decision processes in visual area v4. Front Neurosci (2013) 0.91
Functional subdomains within human FFA. J Neurosci (2013) 0.91
The berkeley wavelet transform: a biologically inspired orthogonal wavelet transform. Neural Comput (2008) 0.88
Nonlinear V1 responses to natural scenes revealed by neural network analysis. Neural Netw (2004) 0.87
ENCODING AND DECODING V1 FMRI RESPONSES TO NATURAL IMAGES WITH SPARSE NONPARAMETRIC MODELS. Ann Appl Stat (2011) 0.85
Shape perception: complex contour representation in visual area V4. Curr Biol (2003) 0.75