- 권한신청
- P-ISSN1226-9654
- E-ISSN2733-466X
- KCI
ISSN : 1226-9654
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방해자극 미리보기 효과(distractor previewing effect)를 이용한 적응적 시각 탐색 연구: 미리보기의 역사와 과제 맥락을 중심으로
Adaptive visual search in the distractor previewing effect: Focusing on feature previewing history and task context
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Abstract
The nature of adaptive visual search was investigated using the distractor previewing effect (DPE). In a color oddball search task, search times increase for targets whose colors were previewed in a preceding target-absent display (TAD) compared to distractors whose colors being previewed in the TAD. Thus, target-color previewing (TP) trials are typically slower than distractor-color previewing (DP) trials, and this response time (RT) difference is the DPE. For the purpose of the study, color previewing history was varied to examine temporal integration of visual experience with trial-by-trial adjustments being simultaneously made, and task context were manipulated to induce (un)predictable target appearance times. TADs ranging from 0 to 5 (Exp. 1) or from 0 to 2 (Exp. 2) were presented prior to a target-present display, and the number of TADs was blocked (Exp. A) or randomized (Exp. B), resulting in four experiments 1A, 1B, 2A, and 2B being conducted. All experiments similarly showed: (a) increased RTs for TP than for DP trials; (b) increased RTs with increasing TADs; and (c) different DPEs as a function of the TAD. In addition, Experiments 2A and 2B showed that search times depended on the colors of the TAD, immediately rather than remotely preceding the target display. Differences were also found between the block (predictable) and random (unpredictable) designs. Compared to no color previewing trials, all TP trials were slower in both designs, but DP trials differed in that RT was faster in all TADs in the unpredictable context but only in the 1TAD and 2TADs in the predictable context. Moreover, the unpredictable context did not showed a DPE after one TAD presentation unlike the predictable context. These results suggest that (a) visual experience leaves memory traces and is accumulated into memory while trial-by-trial adjustments are made; and further (b) depending on the demand that a given task requires humans exert their top-down control of attention accordingly.
- keywords
- 적응적, 시각 탐색, 방해자극 미리보기 효과, 미리보기 역사, 주의 통제, adaptive, visual search, the distractor previewing effect (DPE), previewing history, attentional control
참고문헌
Ariga, A., & Kawahara, J. (2004). The perceptual and cognitive distractor-previewing effect. Journal of Vision, 4, 891-903.
Brascamp, J. W., Pels, E., & Kristjánsson, Á. (2011). Priming of pop-out on multiple time scales during visual search. Vision Research, 51, 1972-1978.
Chun, M. M., & Jiang, Y. (1998). Contextual cueing: Implicit learning and memory of visual context guides spatial attention. Cognitive Psychology, 36, 28-71.
Chun, M. M., & Nakayama, K. (2000). On the functional role of implicit visual memory for the adaptive deployment of attention across scenes. Visual Cognition, 7, 65-81.
Epstein, R., & Kanwisher, N. (1998). A cortical representation of the local visual environment. Nature, 392, 598-601.
Goolsby, B. A., Grabowecky, M., & Suzuki, S. (2005). Adaptive modulation of color salience contingent upon global form coding and task relevance. Vision Research, 45, 901-930.
Kanwisher, N., McDermott, J., & Chun, M. (1997). The fusiform face area: a module in human extrastriate cortex specialized for face perception. Journal of Neuroscience, 17, 4302- 4311.
Lleras, A., Kawahara, J. -I., Wan, X. I., & Ariga, A. (2008). Inter-trial inhibition of focused attention in pop-out search. Attention, Perception & Psychophysics, 70, 114-131.
Lleras, A., Levinthal, B. R., & Kawahara, J. (2009). The remains of the trial: Goal- determined inter-trial suppression of selective attention. In N. Srinivasan (Ed.), Attention. Progress in brain research (Vol. 176, pp. 195-213). Amsterdam, The Netherlands: Elsevier.
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, 1000-104.
Luck, S. J., Girelli, M., McDermott, M. T., & 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.
Maljkovic, V., & Nakayama, K. (1994). Priming of pop-out: I. Role of features. Memory and Cognition, 22, 657-672.
Maljkovic, V., & Nakayama, K. (1996). Priming of pop-out: II. The role of position. Attention, Perception, & Psychophysics, 58, 977-991.
Maljkovic, V., & Nakayama, K. (2000). Priming of popout: III. A short-term implicit memory system beneficial for rapid target selection. Visual Cognition, 7, 571-595.
Meyer, D. E., Kieras, D. E., Lauber, E., Schumacher, E. H., Glass, J., ... Apfelblat, D. (1995). Adaptive executive control: Flexible multiple-task performance without pervasive immutable response-selection bottlenecks. Acta Psychologica, 90, 163-190.
Müller, H. J., Heller, D., & Ziegler, J. (1995). Visual search for singleton feature targets within and across feature dimensions. Perception and Psychophysics, 57, 1-17.
Pollmann, S. (2004). Anterior prefrontal cortex contributions to attention control. Experimental Psychology, 51, 270-278.
Scalf, P. E., Ahn, J., Beck, D. M., & Lleras, A. (2014). Trial history effects in the ventral attentional network. Journal of Cognitive Neuroscience, 26, 2789-2797.
Shin, E., Fabiani, M., & Gratton, G. (2004). Evidence of partial response activation in a memory-search task. Cognitive Brain Research, 20, 281-293.
Shin, E., Wan, X. I., Fabiani, M., & Gratton, G., & Lleras, A. (2008). Electrophysiological evidence of feature-based inhibition of focused attention across consecutive trials. Psychophysiology, 45, 804-811.
Shin, E., & Barholow, B. D. (2013). Category- based inhibition of focused attention across consecutive trials. Psychophysiology, 50, 365-376.
Treisman, A. M., Gelade, G. (1980). A feature- integration theory of attention. Cognitive Psychology, 12, 97-136.
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