正常衰老增加视空间短期记忆的辨别力离散度。

Normal aging increases discriminal dispersion in visuospatial short-term memory.

机构信息

Center for Lifespan Psychology, Max Planck Institutefor Human Development, Berlin, Germany.

出版信息

Psychol Aging. 2012 Sep;27(3):627-37. doi: 10.1037/a0027251. Epub 2012 May 7.

Abstract

Computational models of cognitive aging propose that age-related decrements in cognitive performance, including short-term memory (STM), result from less distinct stimulus representations. When applied to visual STM, these models predict higher discriminal dispersion (L. L. Thurstone, 1927, Psychophysical analysis, The American Journal of Psychology, 38, 368-389.) in older adults than in younger adults. To test this prediction, we used a change-detection paradigm for visuospatial locations, with different levels of cognitive load (one, three, or five items) and retention interval (100 or 1,000 ms). Adult age differences were not reliable at Load 1, but were substantial at Loads 3 and 5. Effects of retention time did not differ across age groups, suggesting that age-related differences originated mainly from early processing stages. Applying a mixture model to the data revealed age-related increases in discriminal dispersion and decreases in asymptotic discrimination performance (indexing STM capacity). We concluded that age-related declines in discriminal dispersion, in addition to increasing capacity limitations, impair visual STM performance with advancing adult age.

摘要

认知老化的计算模型提出，认知表现（包括短期记忆 (STM)）随年龄增长而下降，原因是刺激表示不够清晰。当将这些模型应用于视觉 STM 时，它们预测老年人的辨别力分散度（L. L. 瑟斯顿，1927 年，心理物理分析，《美国心理学杂志》，38, 368-389.）高于年轻人。为了检验这一预测，我们使用了一种用于视觉空间位置的变化检测范式，具有不同的认知负荷水平（一个、三个或五个项目）和保留间隔（100 或 1000 毫秒）。在负荷 1 时，成人年龄差异不可靠，但在负荷 3 和 5 时则很大。保留时间的影响在年龄组之间没有差异，这表明年龄相关的差异主要源自早期处理阶段。将混合模型应用于数据表明，辨别力分散度随年龄增长而增加，渐近辨别力表现（索引 STM 容量）随年龄增长而降低。我们得出结论，除了增加容量限制外，与年龄相关的辨别力分散度下降还会随着成年年龄的增长而损害视觉 STM 表现。

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正常衰老增加视空间短期记忆的辨别力离散度。

Normal aging increases discriminal dispersion in visuospatial short-term memory.

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