快速调用长时记忆以克服工作记忆容量限制的行为特征。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-05-14 DOI:10.3758/s13421-024-01566-z
Kirsten C S Adam, Chong Zhao, Edward K Vogel
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引用次数: 0

摘要

工作记忆和长时记忆经常被孤立地研究。为了更好地理解工作记忆的具体局限性,我们会努力减少长时记忆对工作记忆任务表现的潜在影响(例如,要求参与者记忆人工的、抽象的项目,而不是熟悉的现实世界中的物体)。然而,在日常生活中,我们会同时使用工作记忆和长时记忆。在这里,我们的目标是描述在典型的视觉工作记忆任务(即记忆彩色方块)中,如何利用长时记忆来规避容量限制。先前的研究表明,偶然重复工作记忆阵列往往不会提高视觉工作记忆的成绩--即使偶然重复了几十次,重复阵列的工作记忆成绩往往也没有提高。在这里,我们使用的是明确而非偶然重复数组的整体报告工作记忆任务。与之前偶然重复的工作不同,我们在两项行为实验中发现,即使只重复一次,明确重复数组也能显著提高工作记忆能力。在后来的长期记忆测试中,参与者在识别重复数组方面的表现超过了正常水平,这与利用长期记忆快速提高重复数组的表现这一观点是一致的。最后,我们分析了项目间的反应时间,发现只有在重复数组后才会出现组块形成的反应时间特征(两到三个项目后反应时间减慢);因此,在未来的工作中,项目间的反应时间可能有助于检验视觉工作记忆和长时记忆的协调互动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Behavioral signatures of the rapid recruitment of long-term memory to overcome working memory capacity limits.

Working- and long-term memory are often studied in isolation. To better understand the specific limitations of working memory, effort is made to reduce the potential influence of long-term memory on performance in working memory tasks (e.g., asking participants to remember artificial, abstract items rather than familiar real-world objects). However, in everyday life we use working- and long-term memory in tandem. Here, our goal was to characterize how long-term memory can be recruited to circumvent capacity limits in a typical visual working memory task (i.e., remembering colored squares). Prior work has shown that incidental repetitions of working memory arrays often do not improve visual working memory performance - even after dozens of incidental repetitions, working memory performance often shows no improvement for repeated arrays. Here, we used a whole-report working memory task with explicit rather than incidental repetitions of arrays. In contrast to prior work with incidental repetitions, in two behavioral experiments we found that explicit repetitions of arrays yielded robust improvement to working memory performance, even after a single repetition. Participants performed above chance at recognizing repeated arrays in a later long-term memory test, consistent with the idea that long-term memory was used to rapidly improve performance across array repetitions. Finally, we analyzed inter-item response times and we found a response time signature of chunk formation that only emerged after the array was repeated (inter-response time slowing after two to three items); thus, inter-item response times may be useful for examining the coordinated interaction of visual working and long-term memory in future work.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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