TY - JOUR
T1 - Rapid learning in attention shifts
T2 - A review
AU - Kristjánsson, Árni
N1 - Funding Information: Please address all correspondence to: ~ r n iKristjinsson, Department of Social Sciences, University of Iceland, Oddi v. Sturlugotu, 101 Reykjavik, Iceland. Email: [email protected] The research presented in this paper was supported by the Fulbright Foundation, the American Scandinavian Society, and Harvard University as well as a long-term fellowship from the Human Frontiers Science program, all awarded to the author. I want to thank two anonymous referees for their constructive comments.
PY - 2006/2
Y1 - 2006/2
N2 - Many lines of evidence show that the human visual system does not simply passively register whatever appears in the visual field. The visual system seems to preferentially "choose" stimuli according to what is most relevant for the task at hand, a process called attentional selection. Given the large amount of information in any given visual scene, and well-documented capacity limitations for the representation of visual stimuli, such a strategy seems only reasonable. Consistent with this, human observers are surprisingly insensitive to large changes in their visual environment when they attend to something else in the visual scene. Here I argue that attentional selection of pertinent information is heavily influenced by the stimuli most recently viewed that were important for behaviour. I will describe recent evidence for the existence of a powerful memory system, not under any form of voluntary control, which aids observers in orienting quickly and effectively to behaviourally relevant stimuli in the visual environment, in particular the stimuli that have been important in the immediate past. I will also discuss research into the potential neural mechanisms involved in these learning effects. Finally, I will discuss how these putative memory mechanisms may help in maintaining the apparent stability and continuity of the ever-changing visual environment, which is such a crucial component of our everyday visual experience.
AB - Many lines of evidence show that the human visual system does not simply passively register whatever appears in the visual field. The visual system seems to preferentially "choose" stimuli according to what is most relevant for the task at hand, a process called attentional selection. Given the large amount of information in any given visual scene, and well-documented capacity limitations for the representation of visual stimuli, such a strategy seems only reasonable. Consistent with this, human observers are surprisingly insensitive to large changes in their visual environment when they attend to something else in the visual scene. Here I argue that attentional selection of pertinent information is heavily influenced by the stimuli most recently viewed that were important for behaviour. I will describe recent evidence for the existence of a powerful memory system, not under any form of voluntary control, which aids observers in orienting quickly and effectively to behaviourally relevant stimuli in the visual environment, in particular the stimuli that have been important in the immediate past. I will also discuss research into the potential neural mechanisms involved in these learning effects. Finally, I will discuss how these putative memory mechanisms may help in maintaining the apparent stability and continuity of the ever-changing visual environment, which is such a crucial component of our everyday visual experience.
UR - https://www.scopus.com/pages/publications/31344455317
U2 - 10.1080/13506280544000039
DO - 10.1080/13506280544000039
M3 - Review article
SN - 1350-6285
VL - 13
SP - 324
EP - 362
JO - Visual Cognition
JF - Visual Cognition
IS - 3
ER -