Engineering Students’ Beliefs about Decision Making in Capstone Design: A Revised Framework for Types of Informal Reasoning

Giselle Guanes Melgarejo; Genevieve Thanh; Emily Dringenberg

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Conference: 2019 ASEE Annual Conference & Exposition
Location: Tampa, Florida
Publication Date: June 15, 2019
Start Date: June 15, 2019
End Date: June 19, 2019
Conference Session: Design in Engineering Education Division: Capstone Design Practices
Tagged Division: Design in Engineering Education
Tagged Topic: Diversity
Page Count: 18
DOI: 10.18260/1-2--32736
Permanent URL: https://strategy.asee.org/32736
Download Count: 521

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Giselle Guanes Melgarejo Ohio State University

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Giselle is a graduate student and research associate at The Ohio State University in the Department of Engineering Education, where she is part of the Beliefs in Engineering Research Group (BERG). She earned her B.S. in Mechanical Engineering from Kansas State University. Her experience teaching first-year engineering students at her previous university ignited her interest in doing research in the field of engineering education. Her current interest broadly encompasses broadening participating in engineering and development of international engineering programs.

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Genevieve Thanh

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Emily Dringenberg Ohio State University orcid.org/0000-0001-7635-7047

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Dr. Dringenberg is an Assistant Professor in the Department of Engineering Education at Ohio State University. She holds a B.S. in Mechanical Engineering (Kansas State '08), a M.S. in Industrial Engineering (Purdue '14) and a Ph.D. in Engineering Education (Purdue ’15). Her team, Beliefs in Engineering Research Group (BERG) utilizes qualitative methods to explore beliefs in engineering. Her research has an overarching goal of leveraging engineering education research to shift the culture of engineering to be more realistic and inclusive. Dr. Dringenberg is also interested in neuroscience, growth mindset, engineering ethics, and race and gender in engineering. In general, she is always excited to learn new things and work with motivated individuals from diverse backgrounds to improve the experiences of people at any level in engineering education.

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Abstract

Engineers engage in design, and design requires decision making. Whether picking a color for a spoon designed to aid a person with physical challenges or choosing the material for the blade of a turbine; engineering design decisions are consequential for the design and how it performs upon implementation. To use a spoon, the person may need to like the color; and the material of the blade must be strong enough for an endurance task. Because design decisions are consequential, undergraduate engineering programs have a responsibility to prepare students as decision makers. Capstone design courses allow undergraduate engineering students to experience open-ended design projects before starting their professional careers. As such, capstone serves as an opportunity to develop students’ ability to make decisions in an ill-structured setting. Typically, explicit instruction related to decision making includes an introduction to rationalistic tools, such as decision matrices or House of Quality. However, in the process of providing rationalistic tools to students, engineering education may be implicitly perpetuating the belief that engineers make decisions through rationalistic reasoning alone. In reality, other types of informal reasoning, such as empathic and intuitive reasoning, are utilized for decision making in ill-structured contexts such as engineering design. The beliefs that undergraduate students hold about decision making in the context of design is not well understood, and this work contributes to this gap in the literature. To learn more about students’ beliefs about decision making, we collected qualitative pilot data in the form of both one-on-one, semi-structured interviews and written reflections from ten engineering students in capstone design courses at a large, Midwestern university. Participants provided accounts of previous decision-making experience within an engineering context. Throughout the data collection, they also were asked to describe how they perceive their own decision making with respect to an initial theoretical framework for types of informal reasoning, which included rationalistic, intuitive and empathic reasoning. Data were analyzed through open and values coding. This paper presents the resulting shift from our initial, three-part theoretical framework for informal reasoning (rationalistic, intuitive, empathic), to a revised, two-part framework for informal reasoning (logical and intuitive). This decision was based upon both our data analysis process and revisiting extant decision-making literature. The contribution that we provide in our revised framework for studying informal reasoning can be used by engineering educators and researchers to think critically about and investigate their own students’ development as decision makers and their approaches to teaching decision making in the context of engineering capstone design. Future work will include data collection utilizing the revised framework and more in-depth data analysis with respect to students’ beliefs about decision making, as well as the influence of a year-long capstone design course on their beliefs.

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Guanes Melgarejo, G., & Thanh, G., & Dringenberg, E. (2019, June), Engineering Students’ Beliefs about Decision Making in Capstone Design: A Revised Framework for Types of Informal Reasoning Paper presented at 2019 ASEE Annual Conference & Exposition , Tampa, Florida. 10.18260/1-2--32736

TY - CPAPER
AB - Engineers engage in design, and design requires decision making. Whether picking a color for a spoon designed to aid a person with physical challenges or choosing the material for the blade of a turbine; engineering design decisions are consequential for the design and how it performs upon implementation. To use a spoon, the person may need to like the color; and the material of the blade must be strong enough for an endurance task. Because design decisions are consequential, undergraduate engineering programs have a responsibility to prepare students as decision makers.
Capstone design courses allow undergraduate engineering students to experience open-ended design projects before starting their professional careers. As such, capstone serves as an opportunity to develop students’ ability to make decisions in an ill-structured setting. Typically, explicit instruction related to decision making includes an introduction to rationalistic tools, such as decision matrices or House of Quality. However, in the process of providing rationalistic tools to students, engineering education may be implicitly perpetuating the belief that engineers make decisions through rationalistic reasoning alone. In reality, other types of informal reasoning, such as empathic and intuitive reasoning, are utilized for decision making in ill-structured contexts such as engineering design. The beliefs that undergraduate students hold about decision making in the context of design is not well understood, and this work contributes to this gap in the literature.
To learn more about students’ beliefs about decision making, we collected qualitative pilot data in the form of both one-on-one, semi-structured interviews and written reflections from ten engineering students in capstone design courses at a large, Midwestern university. Participants provided accounts of previous decision-making experience within an engineering context. Throughout the data collection, they also were asked to describe how they perceive their own decision making with respect to an initial theoretical framework for types of informal reasoning, which included rationalistic, intuitive and empathic reasoning. Data were analyzed through open and values coding.
This paper presents the resulting shift from our initial, three-part theoretical framework for informal reasoning (rationalistic, intuitive, empathic), to a revised, two-part framework for informal reasoning (logical and intuitive). This decision was based upon both our data analysis process and revisiting extant decision-making literature. The contribution that we provide in our revised framework for studying informal reasoning can be used by engineering educators and researchers to think critically about and investigate their own students’ development as decision makers and their approaches to teaching decision making in the context of engineering capstone design. Future work will include data collection utilizing the revised framework and more in-depth data analysis with respect to students’ beliefs about decision making, as well as the influence of a year-long capstone design course on their beliefs.

AU - Giselle Guanes Melgarejo
AU - Genevieve Thanh
AU - Emily Dringenberg
CY - Tampa, Florida
DA - 2019/06/15
PB - ASEE Conferences
TI - Engineering Students’ Beliefs about Decision Making in Capstone Design: A Revised Framework for Types of Informal Reasoning
UR - https://strategy.asee.org/32736
DO - 10.18260/1-2--32736
ER -