Tricoche Leslie, Meunier Martine, Hassen Sirine, Prado Jérôme, Pélisson Denis
IMPACT Team, Lyon Neuroscience Research Center, University Lyon, UCBL, UJM, INSERM, CNRS, U1028, UMR5292, F-69000 Lyon, France.
EDUWELL Team, Lyon Neuroscience Research Center, University Lyon, UCBL, UJM, INSERM, CNRS, U1028, UMR5292, F-69000 Lyon, France.
Behav Sci (Basel). 2023 Aug 3;13(8):646. doi: 10.3390/bs13080646.
Reaction time (RT) is a critical measure of performance, and studying its distribution at the group or individual level provides useful information on the cognitive processes or strategies used to perform a task. In a previous study measuring RT in children and adults asked to compare two successive stimuli (quantities or words), we discovered that the group RT distribution was bimodal, with some subjects responding with a mean RT of around 1100 ms and others with a mean RT of around 500 ms. This bimodal distribution suggested two distinct response strategies, one reactive, the other anticipatory. In the present study, we tested whether subjects' segregation into fast and slow responders (1) extended to other sequential comparative judgments (2) evolved from age 8 to adulthood, (3) could be linked to anticipation as assessed using computer modeling (4) stemmed from individual-specific strategies amenable to instruction. To test the first three predictions, we conducted a distributional and theoretical analysis of the RT of 158 subjects tested earlier using four different sequential comparative judgment tasks (numerosity, phonological, multiplication, subtraction). Group RT distributions were bimodal in all tasks, with the two strategies differing in speed and sometimes accuracy too. The fast strategy, which was rare or absent in 8- to 9-year-olds, steadily increased through childhood. Its frequency in adolescence remained, however, lower than in adulthood. A mixture model confirmed this developmental evolution, while a diffusion model corroborated the idea that the difference between the two strategies concerns anticipatory processes preceding decision processes. To test the fourth prediction, we conducted an online experiment where 236 participants made numerosity comparisons before and after an instruction favoring either reactive or anticipatory responses. The results provide out-of-the-lab evidence of the bimodal RT distribution associated with sequential comparisons and demonstrated that the proportions of fast vs. slow responders can be modulated simply by asking subjects to anticipate or not the future result of the comparison. Although anticipation of the future is as important for cognition as memory of the past, its evolution after the first year of life is much more poorly known. The present study is a step toward meeting this challenge. It also illustrates how analyzing individual RT distributions in addition to group RT distributions and using computational models can improve the assessment of decision making cognitive processes.
反应时间(RT)是一项关键的绩效指标,研究其在群体或个体层面的分布能为执行任务时所采用的认知过程或策略提供有用信息。在之前一项针对儿童和成人进行的研究中,要求他们比较两个连续的刺激(数量或单词),我们发现群体反应时间分布呈双峰模式,一些受试者的平均反应时间约为1100毫秒,而另一些受试者的平均反应时间约为500毫秒。这种双峰分布表明存在两种不同的反应策略,一种是反应性的,另一种是预期性的。在本研究中,我们测试了将受试者分为快速反应者和慢速反应者是否(1)适用于其他顺序比较判断,(2)从8岁到成年期有所演变,(3)能否与使用计算机建模评估的预期相关联,(4)是否源于可通过指导改变的个体特定策略。为了检验前三个预测,我们对158名受试者之前使用四种不同顺序比较判断任务(数量、语音、乘法、减法)测得的反应时间进行了分布和理论分析。在所有任务中,群体反应时间分布均为双峰模式,两种策略在速度上存在差异,有时在准确性上也有差异。快速策略在8至9岁儿童中很少见或不存在,在童年期稳步增加。然而,其在青少年时期的出现频率仍低于成年期。一个混合模型证实了这种发展演变,而一个扩散模型则证实了两种策略之间的差异涉及决策过程之前的预期过程这一观点。为了检验第四个预测,我们进行了一项在线实验,236名参与者在接受偏向反应性或预期性反应的指导前后进行数量比较。结果为与顺序比较相关的双峰反应时间分布提供了实验室之外的证据,并表明快速反应者与慢速反应者的比例可以通过要求受试者预期或不预期比较的未来结果而简单地得到调节。尽管对未来的预期对于认知与对过去的记忆同样重要,但其在生命第一年之后的演变却鲜为人知。本研究朝着应对这一挑战迈出了一步。它还说明了除了分析群体反应时间分布之外,分析个体反应时间分布以及使用计算模型如何能够改进对决策认知过程的评估。
