工程教育中的素描评估:系统文献综述

IF 3.9 2区 工程技术 Q1 EDUCATION & EDUCATIONAL RESEARCH
Hillary E. Merzdorf, Donna Jaison, Morgan B. Weaver, Julie Linsey, Tracy Hammond, Kerrie A. Douglas
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引用次数: 0

摘要

背景素描存在于许多学科中,其评估方式也不尽相同,因此,界定基本素描技能和高质量素描的特征具有挑战性。为了让教师在工程素描教学和评估中采用有效的策略,需要对工程教育和相关学科的素描评估结构、指标和目标进行清晰的总结。 目的 本系统性文献综述探讨了工程教育研究中的素描评估定义和方法。 方法 我们从五个主要的工程和教育数据库中收集了 671 篇论文,涉及所有技能水平的素描结构和指标、认知和学习情境。根据选择标准,我们剔除了除 41 篇论文之外的所有论文,并对其进行了内容分析。 结果/结论 工程、设计和艺术是所查阅论文中的三大学科。我们发现,素描评估最常采用的指标包括准确性、透视、线条质量、注释和美学。收集到的大多数研究都对本科生工程设计素描或绘画能力测试的初学者进行了考察。认知技能包括感知草图主题、创造性地绘制草图构思、使用元认知监控草图绘制过程以及使用草图进行交流。 意义 素描评估因工程学科而异,依赖于多种类型的反馈和评分标准。认知理论可以为教学活动提供信息,作为素描技能的基础。在素描教学中,高质量的评估实践需要强有力的证据。评估专家可以运用他们的知识来改进素描评估的开发、实施和验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Sketching assessment in engineering education: A systematic literature review

Sketching assessment in engineering education: A systematic literature review

Background

Sketching exists in many disciplines and varies in how it is assessed, making it challenging to define fundamental sketching skills and the characteristics of a high-quality sketch. For instructors to apply effective strategies for teaching and assessing engineering sketching, a clear summary of the constructs, metrics, and objectives for sketching assessment across engineering education and related disciplines is needed.

Purpose

This systematic literature review explores sketching assessment definitions and approaches across engineering education research.

Methodology/Approach

We collected 671 papers from five major engineering and education databases at all skill levels for reported sketching constructs and metrics, cognition, and learning contexts. Based on the selection criteria, we eliminated all but 41 papers, on which we performed content analysis.

Findings/Conclusions

Engineering, design, and art emerged as three major disciplines in the papers reviewed. We found that sketching assessment most often employs metrics on accuracy, perspective, line quality, annotations, and aesthetics. Most collected studies examined beginners in undergraduate engineering design sketching or drawing ability tests. Cognitive skills included perceiving the sketch subject, creatively sketching ideas, using metacognition to monitor the sketching process, and using sketching for communication.

Implications

Sketching assessment varies by engineering discipline and relies on many types of feedback and scoring metrics. Cognitive theory can inform instructional activities as a foundation for sketching skills. There is a need for robust evidence of high-quality assessment practices in sketching instruction. Assessment experts can apply their knowledge toward improving sketching assessment development, implementation, and validation.

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来源期刊
Journal of Engineering Education
Journal of Engineering Education 工程技术-工程:综合
CiteScore
12.20
自引率
11.80%
发文量
47
审稿时长
>12 weeks
期刊介绍: The Journal of Engineering Education (JEE) serves to cultivate, disseminate, and archive scholarly research in engineering education.
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