Skip to main content
Mijn bibliotheek
Shop
Nieuws Boeken Tijdschriften E-learning Web-tv Video Audio
Tips voor Mijn BSL
UITGEBREID ZOEKEN
Inloggen
Top
Psychological Research
Gepubliceerd in: Psychological Research 6/2006

01-11-2006 | Original Article

On the control of visual spatial attention: evidence from human electrophysiology

Auteurs: Pierre Jolicœur, Paola Sessa, Roberto Dell’Acqua, Nicolas Robitaille

Gepubliceerd in: Psychological Research | Uitgave 6/2006

Log in om toegang te krijgen
share
DELEN

Deel dit onderdeel of sectie (kopieer de link)

  • Optie A:
    Klik op de rechtermuisknop op de link en selecteer de optie “linkadres kopiëren”
  • Optie B:
    Deel de link per e-mail
    Link delen
publish
Publiceer nu

Abstract

We used electrophysiological methods to track the deployment of visual spatial attention while observers were engaged in concurrent central attentional processing, using a variant of the attentional blink paradigm. Two visual targets (T1, T2) were presented at a stimulus onset asynchrony of either 200 ms or 800 ms. T1 was a white digit among white letters presented on a dark background using rapid serial visual presentation at fixation. T2 was another digit that was presented to the left or right of fixation simultaneously with a distractor digit in the opposite visual field, each followed by a pattern mask. In each T2 display, one digit was red and one was green. Half of the subjects reported the red digit and ignored the green one, whereas the other half reported the green digit and ignored the red one. T1 and T2 were reported in one block of trials, and only T2 in another block (order counterbalanced across subjects). Accuracy of report of T2 was lower at short SOA than at long SOA when both T1 and T2 were reported, but was similar across SOA when only T2 was reported. The electrophysiological results focused on the N2pc component, which was used as an index of the locus of spatial attention. N2pc was reduced in amplitude when subjects reported T1, and particularly so at the short SOA. The results suggest that attention to T1 interfered with the deployment of visual spatial attention to T2.
vorige artikel The attentional blink is not a unitary phenomenon
volgende artikel How the brain blinks: towards a neurocognitive model of the attentional blink
Literatuur
Band, G. P. H., & Miller, J. (1997). Mental rotation interferes with response preparation. Journal of Experimental Psychology: Human Perception and Performance, 23, 319–338.CrossRefPubMed
Bauer, B. G., Jolicœur, P., & Cowan, W. B. (1996). Visual search for colour targets that are or are not linearly-separable from distractors. Vision Research, 36, 1439–1466.CrossRefPubMed
Bayard, S., Gosselin, N., Robert, M., & Lasssonde, M. (2004). Inter- and intra-hemispheric processing of visual event-related potentials in the absence of the corpus callosum. Journal of Cognitive Neuroscience, 16, 1–14.CrossRefPubMed
Brisson, B., & Jolicœur, P. (2004). Central interference on the voluntary control of spatial attention. Presented at the annual meeting of OPAM, Minneapolis.
Carrier, L. M., & Pashler, H. (1995). Attentional limits in memory retrieval. Journal of Experimental Psychology: Learning, Memory, and Cognition, 21, 1339–1348.PubMedCrossRef
Chun, M. M., & Potter, M. C. (1995). A two-stage model for multiple target detection in rapid serial visual presentation. Journal of Experimental Psychology: Human Perception and Performance, 21, 109–127.CrossRefPubMed
Coren, S., Ward, L. M., & Enns, J. T. (1994). Sensation & Perception (3rd ed.). Orlando, Florida: Hartcourt Brace Jovanovich.
Dell’Acqua, R., Jolicœur, P., Pesciarelli, F., Job, R., & Palomba, D. (2003). Electrophysiological evidence of visual encoding deficits in a cross-modal attentional blink paradigm. Psychophysiology, 40, 629–639.CrossRefPubMed
Duncan, J. (1980). The locus of interference in the perception of simultaneous stimuli. Psychological Review, 87, 272–300.CrossRefPubMed
Duncan, J. (1983). Perceptual selection based on alphanumeric class: Evidence from partial reports. Perception & Psychophysics, 33, 533–547.
Eimer, M. (1994). An ERP study on visual spatial priming using peripheral onsets. Psychophysiology, 31, 154–163.PubMed
Eimer, M., (1996). The N2pc component as an indicator of attentional selectivity. Electroencephalography and Clinical Neurophysiology, 99, 225–234.CrossRefPubMed
de Fockert, J. W., Rees, G., Frith, C. D., & Lavie, N. (2001). The role of working memory in visual selective attention. Science, 291, 1803–1806.CrossRefPubMed
Folk, C. L., Leber, A. B., & Egeth, H. E. (2002). Made you blink! Contingent attentional capture produces a spatial blink. Perception & Psychophysics, 64, 741–753.
Giesbrecht, B. L., & Di Lollo, V. (1998). Beyond the attentional blink: Visual masking by object substitution. Journal of Experimental Psychology: Human Perception and Performance, 24, 1454–1466.CrossRefPubMed
Girelli, M., & Luck, S. J. (1997). Are the same attentional mechanisms used to detect visual search targets defined by color, orientation, and motion? Journal of Cognitive Neuroscience, 9, 238–253.
Hillyard, S. A., & Galambos, R. (1970). Eye movement artifact in the CNV. Electroencephalography and Clinical Neurophysiology, 28, 173–182.CrossRefPubMed
Hopf, J.-M., Boelmans, K., Schoenfeld, A. M., Heinze, H.-J., & Luck, S. J. (2002). How does attention attenuate target-distractor interference in vision? Evidence from magnetoencephalographic recordings. Cognitive Brain Research, 15, 17–29.CrossRefPubMed
Jasper, H. H. (1958). The ten-twenty electrode system of the International Federation. Electroencephalography & Clinical Neurophysiology, 10, 371–375.
Jiang, J., & Chun, M. M. (2001). The influence of temporal selection on spatial selection and distractor interference: An attentional blink study. Journal of Experimental Psychology: Human Perception and Performance, 27, 664–679.CrossRefPubMed
Johnston, J. C., McCann, R. S., & Remington, R. W. (1995). Chronometric evidence for two types of attention. Psychological Science, 6, 365–369.CrossRef
Jolicœur, P. (1998). Modulation of the attentional blink by on-line response selection: Evidence from speeded and unspeeded Task1 decisions. Memory & Cognition, 26, 1014–1032.
Jolicœur, P. (1999a). Concurrent response selection demands modulate the attentional blink. Journal of Experimental Psychology: Human Perception and Performance, 25, 1097–1113.CrossRef
Jolicœur, P. (1999b). Dual-task interference and visual encoding. Journal of Experimental Psychology: Human Perception and Performance, 25, 596–616.CrossRef
Jolicœur, P., & Dell’Acqua, R. (1998) The demonstration of short-term consolidation. Cognitive Psychology, 36, 138–202.CrossRefPubMed
Jolicœur, P., Sessa, P., Dell’Acqua, R., & Robitaille, N. (2005). Attentional control and capture in the attentional blink paradigm: Evidence from human electrophysiology. European Journal of Cognitive Psychology, (in press).
Leblanc, E., & Jolicœur, P. (2005). The timecourse of the contingent spatial blink Canadian Journal of Experimental Psychology, (in press).
Lins, O. G., Picton, T. W., Berg, P., & Scherg, M. (1993). Ocular artifacts in EEG and event-related potentials I: Scalp topography. Brain Topography, 6, 51–63.CrossRefPubMed
Luck, S. J. (2005). The event-related potential technique in cognitive neuroscience. Cambridge, MA: MIT Press.
Luck, S. J., & Hillyard, S. A. (1994). Spatial filtering during visual search: Evidence from human electrophysiology. Journal of Experimental Psychology: Human Perception and Performance, 20, 1000–1014.CrossRefPubMed
Luck, S. J., Girelli, M. T., McDermott, M. A., & Ford, M. A. (1997). Bridging the gap between monkey neurophysiology and human perception: an ambiguity resolution theory of visual selective attention. Cognitive Psychology, 33, 64–87.CrossRefPubMed
McDonald, J. J., & Ward, L. M. (1999). Spatial relevance determines facilitatory and inhibitory effects of auditory covert spatial orienting. Journal of Experimental Psychology: Human Perception and Performance, 25, 1234–1252.CrossRef
Nagy, A. L., & Sanchez, R. R. (1990). Critical color differences determined with a visual search task. Journal of the Optical Society of America, 7, 1209–1217.PubMedCrossRef
Pashler, H. (1994). Dual-task interference in simple tasks: Data and theory. Psychological Bulletin, 116, 220–244.CrossRefPubMed
Posner, M. I. (1980). Orienting of attention. Quarterly Journal of Experimental Psychology, 32, 3–25.PubMed
Raymond, J. E., Shapiro, K. L., & Arnell, K. M. (1992). Temporary suppression of visual processing in an RSVP task: An attentional blink? Journal of Experimental Psychology: Human Perception and Performance, 18, 849–860.CrossRefPubMed
Ross, N. E., & Jolicœur, P. (1999). Attentional blink for color. Journal of Experimental Psychology: Human Perception and Performance, 25, 1483–1494.PubMedCrossRef
Ruthruff, E., Miller, J., & Lachmann, T. (1995). Does mental rotation require central mechanisms? Journal of Experimental Psychology: Human Perception and Performance, 21, 552–570.CrossRefPubMed
Sperling, G. (1960). The information available in brief visual presentations. Psychological Monographs: General and Applied, 74, 1–29.
Tombu, M., & Jolicœur, P. (2003). A central capacity sharing model of dual task performance. Journal of Experimental Psychology: Human Perception and Performance, 29, 3–18.CrossRefPubMed
Treisman, A. M., & Gelade, G. (1980). A feature integration theory of attention. Cognitive Psychology, 12, 97–136.CrossRefPubMed
Van Selst, M., & Jolicoeur, P. (1994). Can mental rotation occur before the dual-task bottleneck? Journal of Experimental Psychology: Human Perception and Performance, 20, 905–921.CrossRefPubMed
Visser, T. A. W., Bischof, W. F., & Di Lollo, V. (1999). Attentional switching in spatial and nonspatial domains: Evidence from the attentional blink. Psychological Bulletin, 125, 458–469.CrossRef
Vogel, E. K., & Machizawa, M. G. (2004). Neural activity predicts individual differences in visual working memory capacity. Nature, 428, 748–751.CrossRefPubMed
Vogel, E. K., Luck, S. J., & Shapiro, K. L. (1998). Electrophysiological evidence for a postperceptual locus of suppression during the attentional blink. Journal of Experimental Psychology: Human Perception and Performance, 24, 1656–1674.CrossRefPubMed
Von Wright, J. M. (1972). On the problem of selection in iconic memory. Scandinavian Journal of Psychology, 13, 159–171.PubMed
Woodman, G. F., & Luck, S. J. (2003). Serial deployment of attention during visual search. Journal of Experimental Psychology: Human Perception and Performance, 29, 121–138.CrossRefPubMed
Zeki, S. M. (1993). A vision of the brain. Oxford, England: Blackwell Scientific Publications.
Metagegevens
Titel
On the control of visual spatial attention: evidence from human electrophysiology
Auteurs
Pierre Jolicœur
Paola Sessa
Roberto Dell’Acqua
Nicolas Robitaille
Publicatiedatum
01-11-2006
Uitgeverij
Springer-Verlag
Gepubliceerd in
Psychological Research / Uitgave 6/2006
Print ISSN: 0340-0727
Elektronisch ISSN: 1430-2772
DOI
https://doi.org/10.1007/s00426-005-0008-4

Andere artikelen Uitgave 6/2006

Psychological Research 6/2006 Naar de uitgave

Editorial

Process-based and code-based interference in dual-task performance

Original Article

How the brain blinks: towards a neurocognitive model of the attentional blink

Original Article

Task-set inertia and memory-consolidation bottleneck in dual tasks

Original Article

Response-specific sources of dual-task interference in human pre-motor cortex

Original Article

Task-order coordination in dual-task performance and the lateral prefrontal cortex: an event-related fMRI study

Original Article

Task switching and action sequencing