Rünger Dennis, Frensch Peter A
Berlin-Brandenburg Academy of Sciences and Humanities, Berlin, Germany.
J Exp Psychol Learn Mem Cogn. 2008 Sep;34(5):1011-26. doi: 10.1037/a0012942.
Research on incidental sequence learning typically is concerned with the characteristics of implicit or nonconscious learning. In this article, the authors aim to elucidate the cognitive mechanisms that contribute to the generation of explicit, reportable sequence knowledge. According to the unexpected-event hypothesis (P. A. Frensch, H. Haider, D. Rünger, U. Neugebauer, S. Voigt, & J. Werg, 2003), individuals acquire reportable knowledge when they search for the cause of an experienced deviation from the expected task performance. The authors experimentally induced unexpected events by disrupting the sequence learning process with a modified serial reaction time task and found that, unlike random transfer sequences, a systematic transfer sequence increased the availability of reportable sequence knowledge. The lack of a facilitative effect of random sequences is explained by the detrimental effect of random events on the presumed search process that generates reportable knowledge. This view is corroborated in a final experiment in which the facilitative effect of systematic transfer blocks is offset by a concurrent secondary task that was introduced to interfere with the search process during transfer.
对附带序列学习的研究通常关注内隐或非意识学习的特征。在本文中,作者旨在阐明有助于生成明确的、可报告的序列知识的认知机制。根据意外事件假说(P. A. 弗伦施、H. 海德尔、D. 鲁恩格、U. 诺伊格鲍尔、S. 沃伊特和J. 韦格,2003年),当个体寻找所经历的与预期任务表现的偏差的原因时,他们会获得可报告的知识。作者通过用修改后的序列反应时任务扰乱序列学习过程,实验性地诱发了意外事件,并发现,与随机转移序列不同,系统转移序列增加了可报告序列知识的可得性。随机序列缺乏促进作用是由随机事件对产生可报告知识的假定搜索过程的有害影响来解释的。这一观点在最后一个实验中得到了证实,在该实验中,系统转移块的促进作用被引入的一个并发次要任务所抵消,该次要任务在转移过程中干扰搜索过程。