Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/neuronal-dynamics-of-bottom-up-and-top-down-processes-in-area-v4-of-Z0jAFb5LQd
References (70)
-
Wieske Zoest, M. Donk, J. Theeuwes (2004)
The role of stimulus-driven and goal-driven control in saccadic visual selection.Journal of experimental psychology. Human perception and performance, 30 4
-
P. Haenny, J. Maunsell, P. Schiller (2004)
State dependent activity in monkey visual cortexExperimental Brain Research, 69
-
MT Schmolesky, Y Wang, DP Hanes, KG Thompson, S Leutgeb, JD Schall, AG Leventhal (1998)
Signal timing across the macaque visual systemJ Neurophysiol, 79
-
H. Pashler (1988)
Cross-dimensional interaction and texture segregationPerception & Psychophysics, 43
-
T. Moore, Mazyar Fallah (2004)
Microstimulation of the frontal eye field and its effects on covert spatial attention.Journal of neurophysiology, 91 1
-
M. Schmolesky, Youngchang Wang, D. Hanes, K. Thompson, A. Leventhal, S. Leutgeb, J. Schall
Signal Timing across the Macaque Visual System Tories (reviewed by Nowak and Bullier 1998) or Directly In -
R. Desimone, J. Duncan (1995)
Neural mechanisms of selective visual attention.Annual review of neuroscience, 18
-
Aditya Murthy, K. Thompson, J. Schall (2001)
Dynamic dissociation of visual selection from saccade programming in frontal eye field.Journal of neurophysiology, 86 5
-
T. Moore, A. Tolias, P. Schiller (1998)
Visual representations during saccadic eye movements.Proceedings of the National Academy of Sciences of the United States of America, 95 15
-
J. Schall, D. Hanes, Kg Thompson, DJ King (1995)
Saccade target selection in frontal eye field of macaque. I. Visual and premovement activation, 15
-
Roger Johnson (2001)
An Introduction to the BootstrapTeaching Statistics, 23
-
R. Desimone, S. Schein (1987)
Visual properties of neurons in area V4 of the macaque: sensitivity to stimulus form.Journal of neurophysiology, 57 3
-
C. Folk, R. Remington, J. Johnston (1992)
Involuntary covert orienting is contingent on attentional control settings.Journal of experimental psychology. Human perception and performance, 18 4
-
J. Bergen, B. Julesz (1983)
Parallel versus serial processing in rapid pattern discriminationNature, 303
-
J. Reynolds, L. Chelazzi, R. Desimone (1999)
Competitive Mechanisms Subserve Attention in Macaque Areas V2 and V4The Journal of Neuroscience, 19
-
B. Fischer, R. Boch (2004)
Selection of visual targets activates prelunate cortical cells in trained rhesus monkeyExperimental Brain Research, 41
-
Tirin Moore (1999)
Shape representations and visual guidance of saccadic eye movements.Science, 285 5435
-
B. Motter (1994)
Neural correlates of attentive selection for color or luminance in extrastriate area V4, 14
-
H. Deubel, W. Schneider (1996)
Saccade target selection and object recognition: Evidence for a common attentional mechanismVision Research, 36
-
W. Bacon, H. Egeth (1994)
Overriding stimulus-driven attentional capturePerception & Psychophysics, 55
-
J. Theeuwes (1991)
Cross-dimensional perceptual selectivityPerception & Psychophysics, 50
-
N. Bichot, S. Rao, J. Schall (2001)
Continuous processing in macaque frontal cortex during visual searchNeuropsychologia, 39
-
K. Thompson, N. Bichot (2005)
A visual salience map in the primate frontal eye field.Progress in brain research, 147
-
J. Schall, A. Morel, D. King, J. Bullier, Sandrinc Bcnumont, Noel, Bayer Judy, Ives Trite (1995)
Topography of visual cortex connections with frontal eye field in macaque: convergence and segregation of processing streams, 15
-
J. Maunsell, G. Sclar, T. Nealey, Derryl DePriest (1991)
Extraretinal representations in area V4 in the macaque monkeyVisual Neuroscience, 7
-
T. Moore, K. Armstrong (2003)
Selective gating of visual signals by microstimulation of frontal cortexNature, 421
-
Christos Constantinidis, M. Steinmetz (2001)
Neuronal responses in area 7a to multiple-stimulus displays: I. neurons encode the location of the salient stimulus.Cerebral cortex, 11 7
-
F. Hamker (2004)
A dynamic model of how feature cues guide spatial attentionVision Research, 44
-
Dr. Fischer, R. Boch (2004)
Enhanced activation of neurons in prelunate cortex before visually guided saccades of trained rhesus monkeysExperimental Brain Research, 44
-
J. Baizer, Leslie Ungerleider, R. Desimone (1991)
Organization of visual inputs to the inferior temporal and posterior parietal cortex in macaques, 11
-
A. Yarbus (1967)
Eye Movements and Vision -
K. Thompson, N. Bichot, J. Schall (1997)
Dissociation of visual discrimination from saccade programming in macaque frontal eye field.Journal of neurophysiology, 77 2
-
A. Fuchs, D. Robinson (1966)
A method for measuring horizontal and vertical eye movement chronically in the monkey.Journal of applied physiology, 21 3
-
Min-Shik Kim, K. Cave (1999)
Top-down and bottom-up attentional control: On the nature of interference from a salient distractorPerception & Psychophysics, 61
-
N. Bichot, A. Rossi, R. Desimone (2005)
Parallel and Serial Neural Mechanisms for Visual Search in Macaque Area V4Science, 308
-
T. Lee, Cindy Yang, Richard Romero, D. Mumford (2002)
Neural activity in early visual cortex reflects behavioral experience and higher-order perceptual saliencyNature Neuroscience, 5
-
D. Lamy, H. Egeth (2003)
Attentional capture in singleton-detection and feature-search modes.Journal of experimental psychology. Human perception and performance, 29 5
-
Charles Connor, D. Preddie, J. Gallant, D. Essen (1997)
Spatial Attention Effects in Macaque Area V4The Journal of Neuroscience, 17
-
J. Mazer, J. Gallant (2003)
Goal-Related Activity in V4 during Free Viewing Visual Search Evidence for a Ventral Stream Visual Salience MapNeuron, 40
-
J. Hoffman, B. Subramaniam (1995)
The role of visual attention in saccadic eye movementsPerception & Psychophysics, 57
-
Robert McPeek, E. Keller (2002)
Saccade target selection in the superior colliculus during a visual search task.Journal of neurophysiology, 88 4
-
J. Schall, K. Thompson (1999)
Neural selection and control of visually guided eye movements.Annual review of neuroscience, 22
-
C. Bruce, M. Goldberg, M. Bushnell, G. Stanton (1985)
Primate frontal eye fields. II. Physiological and anatomical correlates of electrically evoked eye movements.Journal of neurophysiology, 54 3
-
J. Moran, R. Desimone (1985)
Selective attention gates visual processing in the extrastriate cortex.Science, 229 4715
-
Carrie McAdams, J. Maunsell (1999)
Effects of Attention on Orientation-Tuning Functions of Single Neurons in Macaque Cortical Area V4The Journal of Neuroscience, 19
-
M. Basso, R. Wurtz (1997)
Modulation of neuronal activity by target uncertaintyNature, 389
-
Eileen Kowler, Eric Anderson, B. Dosher, Erik Blaser (1995)
The role of attention in the programming of saccadesVision Research, 35
-
J. Gottlieb, M. Kusunoki, M. Goldberg (1998)
The representation of visual salience in monkey parietal cortexNature, 391
-
H. Egeth, S. Yantis (1997)
Visual attention: control, representation, and time course.Annual review of psychology, 48
-
L. Chelazzi, John Duncan, Earl Miller, R. Desimone (1998)
Responses of neurons in inferior temporal cortex during memory-guided visual search.Journal of neurophysiology, 80 6
-
H. Spitzer, R. Desimone, J. Moran (1988)
Increased attention enhances both behavioral and neuronal performance.Science, 240 4850
-
G. Stanton, C. Bruce, M. Goldberg (1995)
Topography of projections to posterior cortical areas from the macaque frontal eye fieldsJournal of Comparative Neurology, 353
-
C. Koch, S. Ullman (1985)
Shifts in selective visual attention: towards the underlying neural circuitry.Human neurobiology, 4 4
-
PE Haenny, JH Maunsell, PH Schiller (1988)
State dependent activity in monkey visual cortex. II. Retinal and extraretinal factors in V4Exp Brain Res, 69
-
K. Thompson, D. Hanes, N. Bichot, J. Schall (1996)
Perceptual and motor processing stages identified in the activity of macaque frontal eye field neurons during visual search.Journal of neurophysiology, 76 6
-
JD Schall, DP Hanes, KG Thompson, DJ King (1995a)
Saccade target selection in frontal eye field of macaqueI. Visual and premovement activation. J Neurosci, 15
-
T. Ogawa, H. Komatsu (2004)
Target Selection in Area V4 during a Multidimensional Visual Search TaskThe Journal of Neuroscience, 24
-
A. U.S., Charles Bruce, Michael Goldberg (1985)
Primate frontal eye fields. I. Single neurons discharging before saccades.Journal of neurophysiology, 53 3
-
David Sheinberg, N. Logothetis (2001)
Noticing Familiar Objects in Real World Scenes: The Role of Temporal Cortical Neurons in Natural VisionThe Journal of Neuroscience, 21
-
H. Nothdurft (1993)
The role of features in preattentive vision: Comparison of orientation, motion and color cuesVision Research, 33
-
A. Treisman, G. Gelade (1980)
A feature-integration theory of attentionCognitive Psychology, 12
-
L. Chelazzi, Earl Miller, J. Duncan, R. Desimone (2001)
Responses of neurons in macaque area V4 during memory-guided visual search.Cerebral cortex, 11 8
-
Stanley Scheinl, R. Desimone (1990)
Spectral properties of V4 neurons in the macaque, 10
-
K. Thompson, N. Bichot, Takashi Sato (2005)
Frontal eye field activity before visual search errors reveals the integration of bottom-up and top-down salience.Journal of neurophysiology, 93 1
-
S. Luck, L. Chelazzi, S. Hillyard, R. Desimone, A. Bradley, B. Skottun, I. Ohzawa, G. Sclar, R. Freeman (1997)
Neural mechanisms of spatial selective attention in areas V1, V2, and V4 of macaque visual cortex.Journal of neurophysiology, 77 1
-
C. Connor, H. Egeth, S. Yantis (2004)
Visual Attention: Bottom-Up Versus Top-DownCurrent Biology, 14
-
L. Itti, C. Koch (2000)
A saliency-based search mechanism for overt and covert shifts of visual attentionVision Research, 40
-
S. Judge, B. Richmond, F. Chu (1980)
Implantation of magnetic search coils for measurement of eye position: An improved methodVision Research, 20
-
M. Posner, C. Snyder, B. Davidson (1980)
Attention and the detection of signals.Journal of experimental psychology, 109 2
-
D. Hanes, J. Schall (1996)
Neural Control of Voluntary Movement InitiationScience, 274
- Publisher
- Springer Journals
- Copyright
- Copyright © 2006 by Springer-Verlag
- Subject
- Biomedicine; Neurology ; Neurosciences
- ISSN
- 0014-4819
- eISSN
- 1432-1106
- DOI
- 10.1007/s00221-006-0362-5
- pmid
- 16506012
- Publisher site
- See Article on Publisher Site
Abstract
Visual selection is thought to be guided by both bottom-up intrinsic visual saliency and top-down visual attention. We examined how the relative importance of each of these processes dynamically changes over the course of a visual search in area V4 of two macaque monkeys. The animals were trained to perform a multidimensional visual search task in which a search array that consisted of two singleton stimuli, unique in shape and color, and four nonsingleton stimuli was presented. The task was to select one of the singletons as the saccade target, depending on the instructed search dimension, which was switched between shape and color. The strengths of the neural modulations caused by the bottom-up and top-down factors were, respectively, evaluated by assessing the dependence of the visual responses on the singleton type and the behavioral significance of the receptive field stimulus. We found that the initial visual responses of V4 neurons predominantly specified the singleton type of the receptive field stimulus, while the late presaccadic response primarily specified its behavioral significance. For comparison, recordings were also made from the frontal eye field (FEF) of one monkey and we found that the predominant activity of FEF neurons signaled the behavioral significance of the receptive field stimulus over time. These findings suggest that area V4 might function as an intermediate stage where both sensory- and behavior-based signals are dynamically represented, depending on their online requirements during a visual search, whereas the FEF predominantly represents behavior-based signals for upcoming saccade responses.
Journal
Experimental Brain Research – Springer Journals
Published: Aug 1, 2006