Merit Bruckmaier, Artyom Zinchenko, Hermann J Müller, Thomas Geyer
{"title":"Increasing Signal, Reducing Noise: Contrasting Neural Mechanisms of Attention in Visual Search.","authors":"Merit Bruckmaier, Artyom Zinchenko, Hermann J Müller, Thomas Geyer","doi":"10.1162/jocn.a.92","DOIUrl":null,"url":null,"abstract":"<p><p>When invariant target-distractor arrays are presented repeatedly during visual search, participants respond faster on repeated versus novel configuration trials. This effect reflects attentional guidance through long-term memory (LTM) templates-a phenomenon termed contextual cueing. Subsequently, relocating the target within the same distractor layout abolishes any contextual cueing effects, and relearning the new target position is much harder than the initial learning-likely due to consistent attentional misguidance toward the initial (learnt) target position. Here, we studied how the different processes involved in contextual cueing and relearning affect the variability of neural responses in human participants as measured with EEG. Attention has previously been shown to reduce trial-by-trial variability in EEG [Arazi, A., Yeshurun, Y., & Dinstein, I. Neural variability is quenched by attention. Journal of Neuroscience, 39, 5975-5985, 2019], indicating that, in addition to increasing the neural response to an attended stimulus, attention may reduce the noise within the neural response itself. While repeated versus novel contexts did not modulate the trial-by-trial variability during initial learning, significant lateralized variability reductions were observed for repeated but not novel context trials in the relocations phase. This contrasts with how contextual cueing affected lateralized ERPs in past research. Zinchenko and colleagues [Zinchenko, A., Conci, M., Töllner, T., Müller, H. J., & Geyer, T. Automatic guidance (and misguidance) of visuospatial attention by acquired scene memory: Evidence from an N1pc polarity reversal. Psychological Science, 31, 1531-1543, 2020] found that lateralized ERPs signal correct and incorrect (i.e., misguided) attentional selection of target positions learned earlier. This phenomenon was observed during both the learning and relocation phases. Thus, variability and lateralized ERPs may represent different facets of attention, where variability becomes evident specifically under high attentional demand conditions, such as when participants must override the misguidance caused by LTM templates.</p>","PeriodicalId":51081,"journal":{"name":"Journal of Cognitive Neuroscience","volume":" ","pages":"1-11"},"PeriodicalIF":3.0000,"publicationDate":"2025-08-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Cognitive Neuroscience","FirstCategoryId":"3","ListUrlMain":"https://doi.org/10.1162/jocn.a.92","RegionNum":3,"RegionCategory":"医学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"NEUROSCIENCES","Score":null,"Total":0}
引用次数: 0
Abstract
When invariant target-distractor arrays are presented repeatedly during visual search, participants respond faster on repeated versus novel configuration trials. This effect reflects attentional guidance through long-term memory (LTM) templates-a phenomenon termed contextual cueing. Subsequently, relocating the target within the same distractor layout abolishes any contextual cueing effects, and relearning the new target position is much harder than the initial learning-likely due to consistent attentional misguidance toward the initial (learnt) target position. Here, we studied how the different processes involved in contextual cueing and relearning affect the variability of neural responses in human participants as measured with EEG. Attention has previously been shown to reduce trial-by-trial variability in EEG [Arazi, A., Yeshurun, Y., & Dinstein, I. Neural variability is quenched by attention. Journal of Neuroscience, 39, 5975-5985, 2019], indicating that, in addition to increasing the neural response to an attended stimulus, attention may reduce the noise within the neural response itself. While repeated versus novel contexts did not modulate the trial-by-trial variability during initial learning, significant lateralized variability reductions were observed for repeated but not novel context trials in the relocations phase. This contrasts with how contextual cueing affected lateralized ERPs in past research. Zinchenko and colleagues [Zinchenko, A., Conci, M., Töllner, T., Müller, H. J., & Geyer, T. Automatic guidance (and misguidance) of visuospatial attention by acquired scene memory: Evidence from an N1pc polarity reversal. Psychological Science, 31, 1531-1543, 2020] found that lateralized ERPs signal correct and incorrect (i.e., misguided) attentional selection of target positions learned earlier. This phenomenon was observed during both the learning and relocation phases. Thus, variability and lateralized ERPs may represent different facets of attention, where variability becomes evident specifically under high attentional demand conditions, such as when participants must override the misguidance caused by LTM templates.
当在视觉搜索过程中重复呈现不变的目标-分心物阵列时,参与者对重复配置试验的反应速度比新配置试验快。这种效应反映了通过长期记忆(LTM)模板进行的注意力引导——一种被称为情境线索的现象。随后,在相同的干扰物布局中重新定位目标消除了任何上下文提示效应,重新学习新的目标位置比最初的学习要困难得多——可能是由于对初始(习得的)目标位置的持续注意误导。在这里,我们研究了上下文提示和再学习的不同过程如何影响脑电图测量的人类参与者神经反应的变异性。注意力先前已被证明可以减少脑电图中每次试验的可变性[Arazi, A., Yeshurun, Y., & Dinstein, I.]神经可变性被注意力所抑制。神经科学学报,39,5975-5985,2019],这表明,除了增加对参与刺激的神经反应外,注意力还可以减少神经反应本身的噪音。在最初的学习过程中,重复情境与新情境的对比并没有调节每次试验的可变性,但在重新定位阶段,重复情境与新情境的对比观察到显著的侧化可变性减少。这与过去研究中情境线索如何影响侧化erp形成对比。Zinchenko及其同事[Zinchenko, A., Conci, M., Töllner, T., m ller, H. J., & Geyer, T.]获得性场景记忆对视觉空间注意的自动引导(和错误引导):来自N1pc极性反转的证据。心理科学,31(1),1531-1543,2020]发现,侧化的erp信号正确和不正确(即误导)的目标位置的注意选择。这一现象在学习和迁移阶段都可以观察到。因此,可变性和横向erp可能代表了注意力的不同方面,其中可变性尤其在高注意力需求条件下变得明显,例如当参与者必须克服由LTM模板引起的误导时。
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