Du Fenglei, Yao Yuan, Zhang Qiong, Chen Feiyan
Perception. 2014;43(7):694-704. doi: 10.1068/p7625.
Abacus-based mental calculation (AMC) is a unique strategy for arithmetic that is based on the mental abacus. AMC experts can solve calculation problems with extraordinarily fast speed and high accuracy. Previous studies have demonstrated that abacus experts showed superior performance and special neural correlates during numerical tasks. However, most of those studies focused on the perception and cognition of Arabic numbers. It remains unclear how the abacus numbers were perceived. By applying a similar enumeration Stroop task, in which participants are presented with a visual display containing two abacus numbers and asked to compare the numerosity of beads that consisted of the abacus number, in the present study we investigated the automatic processing of the numerical value of abacus numbers in abacus-trained children. The results demonstrated a significant congruity effect in the numerosity comparison task for abacus-trained children, in both reaction time and error rate analysis. These results suggested that the numerical value of abacus numbers was perceived automatically by the abacus-trained children after long-term training.
基于算盘的心算(AMC)是一种独特的算术策略,它基于心算算盘。AMC专家能够以极快的速度和高精度解决计算问题。先前的研究表明,算盘专家在数字任务中表现出卓越的能力和特殊的神经关联。然而,这些研究大多集中在阿拉伯数字的感知和认知上。算盘数字是如何被感知的仍不清楚。通过应用类似的枚举斯特鲁普任务,即向参与者呈现一个包含两个算盘数字的视觉显示,并要求他们比较构成算盘数字的珠子数量,在本研究中,我们调查了经过算盘训练的儿童对算盘数字数值的自动处理。结果表明,在算盘训练儿童的数量比较任务中,无论是反应时间还是错误率分析,都存在显著的一致性效应。这些结果表明,经过长期训练后,算盘训练儿童能够自动感知算盘数字的数值。