Modularization for mastery learning in CS1: a 4-year action research study.

IF 4.5 2区 教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH Journal of Computing in Higher Education Pub Date : 2023-03-16 DOI:10.1007/s12528-023-09366-1
Claudio Alvarez, Maira Marques Samary, Alyssa Friend Wise
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Abstract

Computer programming is a skill of increasing importance in scientific and technological fields. However, in introductory computer science (CS1) courses in higher education, approximately one in every three students fails. A common reason is that students are overwhelmed by an accelerated and inflexible pace of learning that jeopardizes success. Accordingly, in the computer science education literature it has been suggested that the pedagogical philosophy of 'mastery learning,' which supports students progressing at their own pace, can improve academic outcomes of CS1 courses. Nevertheless, few extended mastery learning implementations in CS1 have been documented in the literature, and there is a lack of guidance and best practices to foster its adoption. In this paper, we present a four-year action research study in which a modular mastery-based CS1 course was designed, evaluated and improved in successive iterations with cohorts of engineering freshmen in a Latin American research university (N = 959). In the first year of the intervention, only 19.3% of students passed the course in their first semester attempting it. In successive iterations, the instructional design, teaching and learning activities, course content, and course management were iteratively improved such that by the fourth year of offering 77.1% of students passed the course in their first semester. Over this period, course attrition was reduced from 25.0% to 3.8% of the cohort, and students' mean time spent in the course decreased from 23.2 weeks (SD = 7.38) to 14.9 (SD = 3.64). Results indicate that modularization for mastery learning is a viable approach for improving academic results in a CS1 course. Practical considerations towards successful implementation of this approach are presented and discussed.

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CS1中掌握学习的模块化:一项为期4年的行动研究。
计算机编程是科学技术领域中一项日益重要的技能。然而,在高等教育的计算机科学入门课程中,大约每三个学生中就有一个不及格。一个常见的原因是,学生们被加速和僵化的学习节奏所淹没,这会危及成功。因此,在计算机科学教育文献中,有人认为,支持学生按照自己的节奏进步的“掌握学习”的教学哲学可以提高CS1课程的学术成果。然而,文献中很少记录CS1中的扩展掌握学习实现,并且缺乏促进其采用的指导和最佳实践。在这篇论文中,我们提出了一项为期四年的行动研究,在该研究中,一门基于模块化掌握的CS1课程被设计、评估和改进,并与拉丁美洲研究型大学的工程系新生(N = 959)。在干预的第一年,只有19.3%的学生在第一学期通过了该课程。在连续的迭代中,教学设计、教学活动、课程内容和课程管理都得到了迭代改进,到提供课程的第四年,77.1%的学生在第一学期通过了课程。在这段时间里,课程流失率从25.0%下降到3.8%,学生在课程中的平均时间从23.2周下降(SD = 7.38)至14.9(SD = 3.64)。结果表明,模块化的掌握学习是提高CS1课程学术成绩的可行方法。介绍并讨论了成功实施这一方法的实际考虑因素。
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来源期刊
Journal of Computing in Higher Education
Journal of Computing in Higher Education EDUCATION & EDUCATIONAL RESEARCH-
CiteScore
15.10
自引率
3.60%
发文量
40
期刊介绍: Journal of Computing in Higher Education (JCHE) contributes to our understanding of the design, development, and implementation of instructional processes and technologies in higher education. JCHE publishes original research, literature reviews, implementation and evaluation studies, and theoretical, conceptual, and policy papers that provide perspectives on instructional technology’s role in improving access, affordability, and outcomes of postsecondary education.  Priority is given to well-documented original papers that demonstrate a strong grounding in learning theory and/or rigorous educational research design.
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