在使用地板机器人完成编程任务的早期阶段,解决问题过程中的元认知控制

ZDM Pub Date : 2024-08-27 DOI:10.1007/s11858-024-01621-8
Javier Del Olmo-Muñoz, Pascual D. Diago, David Arnau, David Arnau-Blasco, José Antonio González-Calero
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引用次数: 0

摘要

本研究采用顺序混合方法设计,利用两个落地机器人环境,深入研究 5-6 岁儿童在解决问题过程中的元认知控制。在最初的定性阶段,82 名小学生参与了引导落地机器人到达两个目标之一的任务,其中距离较近的目标因涉及转弯而需要更多的认知努力。这一阶段的结果表明,年龄较小的学生往往会根据与任务难度无关的理由做出合理的决定,这凸显了儿童语言和抽象思维能力的局限性,因此有必要进行第二次定量研究。在随后的阶段中,有 117 名学生参与,使用了计算机化的地板机器人模拟器。模拟器执行学生计划好的动作,并就动作的有效性提供反馈。每个学员对每个问题都有三次尝试机会,每次都可以改变目标。模拟器存储了与所选解决路径、计划设计以及根据结果和反馈重新评估决策有关的信息。本研究旨在描述学生在解决问题的编程任务中进行决策时所依据的元认知控制过程的标准。此外,通过以年龄和性别为重点的比较分析,本研究旨在评估元认知过程与在解决问题的编程任务中取得成功之间的关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Metacognitive control during problem solving at early ages in programming tasks using a floor robot

Metacognitive control during problem solving at early ages in programming tasks using a floor robot

This research, following a sequential mixed-methods design, delves into metacognitive control in problem solving among 5- to 6-year-olds, using two floor-robot environments. In an initial qualitative phase, 82 pupils participated in tasks in which they directed a floor robot to one of two targets, with the closer target requiring more cognitive effort due to the turns involved. The results of this phase revealed that younger students often rationalised their decisions based on reasons unrelated to the difficulty of the task, highlighting limitations in children’s language and abstract thinking skills and leading to the need for a second quantitative study. In this subsequent stage, involving 117 students, a computerised floor-robot simulator was used. The simulator executed the students’ planned movements and provided feedback on their validity. Each participant had three attempts per problem, with the option to change their target each time. The simulator stored the information pertaining to the chosen resolution path, design of the plan, and re-evaluation of decision making based on the results and feedback received. This study aims to describe the criteria upon which students base their metacognitive control processes in decision making within problem-solving programming tasks. Additionally, through a comparative analysis focusing on age and gender, this research aims to assess the relationship between metacognitive processes and success in problem-solving programming tasks.

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ZDM
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