Situating intuition in engineering practice

IF 3.9 2区工程技术 Q1 EDUCATION & EDUCATIONAL RESEARCH

Journal of Engineering Education Pub Date : 2023-03-25 DOI:10.1002/jee.20521

Elif Eda Miskioğlu, Caitlyn Aaron, Caroline Bolton, Kaela M. Martin, Madeline Roth, Sanjeev M. Kavale, Adam R. Carberry

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引用次数: 1

Abstract

Background

A defining characteristic of expertise is the use of intuition to navigate tasks. The construct of intuition and its importance is well-studied in other disciplines, but little is known about how it translates to engineering. Existing literature on intuition does not clearly define the construct and its relationship to problem solving, which creates a substantial gap in our understanding of intuition and its applicability to engineering.

Purpose

This study's purpose is to better understand the relationship between expertise, decision-making, and intuition from the perspective of engineering practitioners. We additionally seek to define engineering intuition from this same perspective.

Design/Methods

Seventeen semi-structured interviews were conducted with engineering practitioners with at least 6 years of experience. Sensitizing concepts tied to models of expertise development and dual process cognition were used to guide the study's design and data analysis. Iterative qualitative analysis culminating in code mapping supported the development of a definition and theory of engineering intuition.

Results

This study's result is an emergent definition of engineering intuition and a complementary framework called Leveraging Intuition Toward Engineering Solutions (LITES). LITES uniquely situates intuition as part of the problem-solving process among experienced engineering practitioners and describes how practitioners use their intuition.

Conclusions

This work advances knowledge of the relationship between intuition and expertise in engineering education by providing a definition of engineering intuition and a framework describing intuition's role in engineering problem solving. This contribution furthers efforts to equip current and future engineers with the necessary skills to navigate existing and upcoming societal challenges.

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工程实践中的情境直觉

背景专业知识的一个决定性特征是利用直觉来完成任务。直觉的构造及其重要性在其他学科中得到了很好的研究，但人们对它如何转化为工程知之甚少。现有的关于直觉的文献没有明确定义结构及其与解决问题的关系，这在我们对直觉及其在工程中的适用性的理解上造成了巨大的差距。目的本研究的目的是从工程从业者的角度更好地理解专业知识、决策和直觉之间的关系。此外，我们还试图从同样的角度来定义工程直觉。设计/方法对工程从业者进行了17次半结构化访谈，其中至少有6名多年的经验。与专业知识发展和双过程认知模型相关的敏感概念被用于指导研究的设计和数据分析。迭代定性分析在代码映射中达到顶峰，支持了工程直觉的定义和理论的发展。结果本研究的结果是工程直觉的一个新兴定义和一个名为“利用直觉实现工程解决方案”（LITES）的补充框架。LITES独特地将直觉定位为经验丰富的工程从业者解决问题过程的一部分，并描述了从业者如何使用他们的直觉。结论这项工作通过提供工程直觉的定义和描述直觉在工程问题解决中的作用的框架，提高了对工程教育中直觉和专业知识之间关系的认识。这一贡献进一步推动了为当前和未来的工程师提供必要技能的努力，以应对现有和即将到来的社会挑战。

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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