Maslovat Dana, Chua Romeo, Klapp Stuart T, Franks Ian M
School of Kinesiology, University of British Columbia, War Memorial Gymnasium 210-6081 University Boulevard, Vancouver, BC, V6T 1Z1, Canada.
Department of Psychology, California State University, East Bay, Hayward, USA.
Psychol Res. 2018 Sep;82(5):981-996. doi: 10.1007/s00426-017-0877-3. Epub 2017 May 31.
The current study examined the processes involved in the preparation of sequencing and timing initiation for multi-component responses. In two experiments, participants performed a reaction time (RT) task involving a three key-press sequence with either a simple (isochronous) or complex (non-isochronous) timing structure. Conditions involved a precue that provided information about all features of the movement (simple RT), no features of the movement (choice RT), sequencing only, or timing structure only. When sequencing was precued, RT decreased significantly as compared to choice RT, indicative of advance preparation of sequencing. When timing was precued, RT decreased significantly compared to choice RT when the timing structure was simple, suggesting that some aspect of timing preparation can occur prior to the go stimulus. However, even when the timing structure was known in advance, RT was still affected by timing complexity, confirming that some aspect of timing preparation cannot occur until after the onset of the stimulus and thus occurs during the RT interval. To explain these findings, we propose a two-component model of preparation for the timing initiation structure in which timing selection occurs in advance but timing implementation must occur following the go signal. These results support and extend previous findings regarding the independence of the processes associated with response sequencing and timing initiation.
当前的研究考察了多成分反应的序列准备和计时启动过程。在两个实验中,参与者执行了一项反应时间(RT)任务,该任务涉及一个由三个按键组成的序列,其计时结构要么是简单的(等时的),要么是复杂的(非等时的)。实验条件包括一个预提示,它提供了关于动作所有特征的信息(简单反应时)、动作的无特征信息(选择反应时)、仅序列信息或仅计时结构信息。当序列被预提示时,与选择反应时相比,反应时间显著缩短,这表明序列准备提前进行。当计时被预提示时,与选择反应时相比,在计时结构简单时反应时间显著缩短,这表明计时准备的某些方面可以在启动刺激之前发生。然而,即使计时结构提前已知,反应时间仍然受到计时复杂性的影响,这证实了计时准备的某些方面直到刺激开始后才会发生,因此是在反应时间间隔内发生的。为了解释这些发现,我们提出了一个关于计时启动结构准备的双成分模型,其中计时选择提前发生,但计时实施必须在启动信号之后发生。这些结果支持并扩展了先前关于与反应序列和计时启动相关过程独立性的研究发现。
