Transdisciplinarity and Team-Based Learning: Strategies for an Introductory Programming Course

IF 2.1 2区工程技术 Q2 EDUCATION, SCIENTIFIC DISCIPLINES

IEEE Transactions on Education Pub Date : 2024-03-07 DOI:10.1109/TE.2024.3367617

Rocio Ramos-Rodriguez;Maria Calle;Garis Coronell;John E. Candelo Becerra

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引用次数: 0

Abstract

Contribution: Team-based learning (TBL) with a transdisciplinary (TD) approach is applied in one introductory programming course with different cohorts. The approach reduces the failure rate in the course. In addition, the approach helped students understand the application of programming to different engineering professional areas. Background: Programming courses in engineering develop abilities required for professional practice, such as applying concepts to solve complex problems using critical thinking analysis. However, a considerable body of research shows that these courses have significant failure rates because students perceive a high complexity in the topics. Different studies show the effectiveness of using active learning methods such as TBL to improve student performance and perception of the course. Nonetheless, there are few studies regarding active learning with TD in programming courses. Intended Outcomes: The use of TBL with a TD approach can improve student performance through teamwork and discussions including different perspectives. Application Design: The method creates teams of students from different programs and assigns real-life problems related to diverse engineering disciplines. Findings: TBL with TD allows for improving student performance and decreases failure rates. Additionally, a survey shows that students favor the methodology and are committed to developing different activities that integrate several areas of knowledge. Furthermore, the method allows students to visualize the usefulness of the course concepts in their professional field. The students also favor the dynamics of the class and the teamwork.

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跨学科和团队学习：编程入门课程的策略

贡献：采用跨学科（TD）方法的团队学习（TBL）被应用于一门不同组别的编程入门课程中。该方法降低了课程的不及格率。此外，该方法还有助于学生理解编程在不同工程专业领域的应用。背景：工程学中的编程课程培养专业实践所需的能力，如运用概念和批判性思维分析解决复杂问题。然而，大量研究表明，这些课程的不及格率很高，因为学生认为题目非常复杂。不同的研究表明，使用 TBL 等主动学习方法可以有效提高学生的学习成绩和对课程的认识。然而，关于在编程课程中使用 TD 进行主动学习的研究却很少。预期成果：使用 TBL 和 TD 方法可以通过团队合作和讨论（包括不同观点）提高学生的学习成绩。应用设计：该方法由来自不同专业的学生组成团队，并分配与不同工程学科相关的实际问题。研究结果：使用 TD 的 TBL 可以提高学生成绩，降低不及格率。此外，一项调查显示，学生对该方法青睐有加，并致力于开发整合多个知识领域的不同活动。此外，该方法还能让学生直观地看到课程概念在其专业领域的实用性。学生们还喜欢课堂的活力和团队合作。

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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来源期刊

IEEE Transactions on Education 工程技术-工程：电子与电气

CiteScore

5.80

自引率

7.70%

发文量

审稿时长

1 months

期刊介绍： The IEEE Transactions on Education (ToE) publishes significant and original scholarly contributions to education in electrical and electronics engineering, computer engineering, computer science, and other fields within the scope of interest of IEEE. Contributions must address discovery, integration, and/or application of knowledge in education in these fields. Articles must support contributions and assertions with compelling evidence and provide explicit, transparent descriptions of the processes through which the evidence is collected, analyzed, and interpreted. While characteristics of compelling evidence cannot be described to address every conceivable situation, generally assessment of the work being reported must go beyond student self-report and attitudinal data.