定理证明作为计算理论的学习工具

Proceedings of the 2017 ACM Conference on International Computing Education Research Pub Date : 2017-08-14 DOI:10.1145/3105726.3106184

Maria Knobelsdorf, Christiane Frede, Sebastian Böhne, C. Kreitz

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引用次数: 18

摘要

本文介绍了一项评估研究的初步结果，该研究调查了像Coq这样的交互式定理证明器是否可以用来帮助计算机科学(CS)本科生在计算理论领域学习数学证明。在教育设计研究方法和认知学徒制和社会文化认知理论的基础上，我们收集了实证的，主要是定性的观察数据，重点关注学生在专门为此创建的入门课程中使用Coq的活动。我们的研究结果加强了这样的假设，即像Coq这样的定理证明者确实可以在中介本科生学习形式证明的活动中有益。与纸笔校样相比，学生们从系统的即时反馈和脚手架中受益匪浅。这些结果鼓励将像Coq这样的定理证明在科学上占主导地位的应用扩展到本科计算机科学教育的教学用例中。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Theorem Provers as a Learning Tool in Theory of Computation

This paper presents first results of an evaluation study investigating whether an interactive theorem prover like Coq can be used to help undergraduate computer science (CS) students learn mathematical proving within the field of theory of computation. Set within an educational design research approach and building on cognitive apprenticeship and socio cultures cognition theories, we have collected empirical, mainly qualitative observational data focusing on students' activities with Coq in an introductory course specifically created for that matter. Our results strengthen the assumption that a theorem prover like Coq, indeed, can be beneficial in mediating undergraduate students' activities in learning formal proofing. In comparison to pen & paper proofs, students were profiting strongly from the system's immediate feedback and scaffolding. These results encourage the idea to extend the scientifically dominated use of theorem provers like Coq to pedagogical use cases in undergraduate CS education.

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Proceedings of the 2017 ACM Conference on International Computing Education Research

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