Engineering Commons^™

A Multi-Decade Response To The Call For Change, Bart Johnson, Ron Ulseth, Mike Raich

Integrated Engineering Department Publications

Engineering and society have always been intertwined, especially with the accepted realization of technology's significant and rapidly increasing influence on the evolution of society. As a profession, engineering has a vital role in sustainably meeting needs and exploring opportunities that are ever changing and evolving. As societal and industry needs have evolved, engineering education itself has raised the call several times for evolving the way engineers are educated; however, the recent history of engineering education is, overall, one of missed opportunities. This was brought to a headline recently as ASEE leadership authored an article entitled “Stuck in 1955, Engineering Education …

Engineering Stress Culture In Project-Based Engineering Programs, Lin Chase, Catherine Sleezer, Robert Sleezer, Michelle Soledad

Integrated Engineering Department Publications

Background: This research paper examines engineering stress culture in the context of project-based learning engineering programs at the university level. Multiple authors have reported that the culture of engineering and engineering education can be stressful and exclusive. A study conducted by Jensen and Cross [9] found that measures of inclusion such as "Department Caring" and "Department Pride" were negatively correlated with stress, anxiety, and depression. We used the approach developed by Jensen and Cross to examine stress culture in the context of three project-based learning engineering programs.

Purpose: Our goal was to establish a baseline of measures of mental health …

“But I’M Not An Engineer”… Collaboration Between A Librarian And An Upper Division Project-Based Engineering Program, Rebecca Bates, Robert Sleezer, Heidi J. Southworth

Integrated Engineering Department Publications

Since 2013, a librarian at Minnesota State University, Mankato has collaborated with faculty and students in an upper division project-based engineering program. While having several years of experience in university libraries plus advanced degrees in history, the librarian had a limited background in science, engineering, and technology, and lacked a formal engineering degree. At first glance, this match may appear to be a recipe for failure. Indeed, in those first few years, the librarian’s angst about the missing engineering degree caused many sleepless nights of worry and concern. However, there came a time when the words “but I am not …

"But I'M Not An Engineer"...Collaboration Between A Librarian And An Upper Division Project-Based Engineering Program, Heidi J. Southworth, Rebecca Bates, Robert Sleezer

Library Services Publications

Since 2013, a librarian at Minnesota State University, Mankato has collaborated with faculty and students in an upper division project-based engineering program. While having several years of experience in university libraries plus advanced degrees in history, the librarian had a limited background in science, engineering, and technology, and lacked a formal engineering degree. At first glance, this match may appear to be a recipe for failure. Indeed, in those first few years, the librarian’s angst about the missing engineering degree caused many sleepless nights of worry and concern. However, there came a time when the words “but I am not …

"But I'M Not An Engineer"...Collaboration Between A Librarian And An Upper Division Project-Based Engineering Program, Heidi J. Southworth, Rebecca Bates, Robert Sleezer

Library Services Publications

Since 2013, a librarian at Minnesota State University, Mankato has collaborated with faculty and students in an upper division project-based engineering program. While having several years of experience in university libraries plus advanced degrees in history, the librarian had a limited background in science, engineering, and technology, and lacked a formal engineering degree. At first glance, this match may appear to be a recipe for failure. Indeed, in those first few years, the librarian’s angst about the missing engineering degree caused many sleepless nights of worry and concern. However, there came a time when the words “but I am not …

Student Responses To Active Learning Strategies: A Comparison Between Project-Based And Traditional Engineering Programs, Elizabeth Pluskwik, Yuezhou Wang

Integrated Engineering Department Publications

Prior research has shown that active learning strategies in engineering education improve student learning, motivation, and retention in STEM disciplines. Yet, instructors are often hesitant to use active learning and other non-lecture strategies due to challenges from students who are resistant to engaging in these methods. Prior research has suggested strategies that can be used to mitigate student resistance to active learning, yet many faculty members have not yet implemented active learning into their engineering education courses. The global demand for entrepreneurially-minded engineers and the rapid growth of engineering programs embracing this mindset increases the need for actionable resources and …

Iron Range Engineering - An Overview Of Design And Open-Ended Problem Solving Activities In An Interdisciplinary, Project-Based Learning Program, Elizabeth Pluskwik

Integrated Engineering Department Publications

Project-based learning (PBL) in engineering education is growing at a rapid pace. The Iron Range Engineering (IRE) Program of Minnesota State University Mankato, is an upper division (3rd and 4th year) undergraduate engineering education program based on the Aalborg, Denmark PBL model. Students work in teams to solve industry-sourced projects each semester. The learning of engineering is accomplished in three domains - technical learning of engineering concepts, professionalism, and design, which we call the “three-legged stool” of engineering education. The program promotes entrepreneurial mindset and innovative open-ended problem-solving in context. Fifty students are enrolled in 3rd and 4th-year studies at …

Growing Entrepreneurial Mindset In Interdisciplinary Student Engineers: Experiences Of A Project-Based Engineering Program, Elizabeth Pluskwik, Eleanor Leung, Andrew Lillesve

Integrated Engineering Department Publications

Engineering education models have recently embraced the entrepreneurial mindset as a desired outcome of undergraduate engineering education. Interdisciplinary active learning strategies have been suggested as an effective pedagogy for engaging student engineers in undergraduate engineering education. Recent research suggests that active, social learning in context can lead to improvements in learner innovation, problem-solving, curiosity, retention and accessibility of knowledge, value-creation, and other desired learning outcomes. Much of the recent adoption of active and collaborative learning, self-directed learning, problem-based and project-based learning (PBL), peer to peer learning, and other similar learning strategies are aimed at developing innovative and entrepreneurial mindset skills, …

Effectiveness Of Gamification Activities In A Project-Based Learning Classroom, Eleanor Leung, Elizabeth Pluskwik

Integrated Engineering Department Publications

The purpose of this research is to analyze the effectiveness, and student's self-reported engagement with gamification tools on a student's learning of technical concepts when used in a project-based learning (PBL) engineering classroom environment. Gamification, as defined in this study, is the use of game-based elements such as online audience response systems with automated feedback in non-game situations. By adding gamification to the classroom, we hope to further build on the active and collaborative learning environment that our PBL program already provides. Five gamification activities were implemented during the Fall 2017 semester with junior and senior student engineers enrolled in …

Iron Range Engineering Pbl Experience, Ron Ulseth, Bart Johnson

Integrated Engineering Department Publications

A new PBL model started in 2010 in Minnesota, United States. The PBL model is upper-division (the last two years of four-year bachelor’s of engineering degree). Entering students are graduates of Minnesota’s community colleges. The Aalborg PBL model served as an inspiration for the program’s development. Unique attributes of the program include industry clients, semester-long projects, emphasis on development of self-regulated learning abilities, dedicated project rooms, technical competence learned in one-credit, small (3-4 student) groups with one academic staff called learning competencies, and an emphasis on continuous improvement. The program has earned ABET accreditation. Seventy-five students have graduated and are …

Professional Competency Development In A Pbl Curriculum, Bart Johnson, Ron Ulseth

Integrated Engineering Department Publications

Substantial dialogue exists regarding the needs of the engineering profession and the changes in engineering education necessary to meet them. Important to this change is an increased emphasis on the professional competencies as identified by the Washington Accord and the ABET professional skills for engineering graduates and how to educate for them. This paper will explore the potential for a project based learning engineering curriculum model to meet this need. It will summarize a newly developed upper-division undergraduate project-based learning (PBL) engineering program in the U.S. engineering educational system and its approach to professional competency development. Based on the ABET …

Leading Large-Scale Change In An Engineering Program, Cheryl Allendoerfer, Rebecca Bates, Jennifer Karlin, Ron Ulseth, Dan Ewert

Integrated Engineering Department Publications

While many efforts have been made to improve technical and professional skills in engineering graduates, there has been little comprehensive change in the pedagogy of most engineering education institutions in the U.S. Many of these efforts involve changing only one or two aspects of the curriculum, and therefore are less likely to make significant changes in the student learning outcomes. For better success, engineering curricular changes will need to address the entire education system. In order to see real, sustainable improvement in engineering education practice, both the behaviors of the participants and the systems within which these participants act must …

A Comparison Study Of Project-Based-Learning In Upper-Division Engineering Education, Ron Ulseth, Bart Johnson, Rebecca Bates

Integrated Engineering Department Publications

A new model for engineering education was launched in January 2010 in northeastern Minnesota. The Iron Range Engineering (IRE) model is a project-based-learning (PBL) methodology that focuses on producing graduates with integrated technical and professional knowledge and competencies. A unique and important element of the IRE model has 100% of IRE student learning taking place in the context of industry projects. Students at IRE are upper-division engineering students who transferred from Minnesota community college lower-division engineering programs. To understand the impact that IRE methodology may have on preparing engineers with the competencies needed for the future workplace, a comparison study …

The Iron Range Engineering Pbl Curriculum: How Students Adapt To And Function Within Pbl, Rose M. Marra, Betsy Palmer, Ron Ulseth, Bart Johnson

Integrated Engineering Department Publications

Iron Range Engineering is a unique complete-PBL curriculum for upper division students. Rather than studying about engineering in traditional engineering courses, IRE students solve complex and ill-structured industry problems in mining, milling, and manufacturing industries. To support students’ transition to PBL and to facilitate deep approaches to learning technical and professional competencies required for the engineers of the future, faculty have created a variety of structures. This paper describes IRE’s PBL implementation and reports the results of a qualitative study of their students.

A New Model Of Project Based Learning, Ron Ulseth, Jefferey E. Froyd, Thomas A. Lotzinger, Dan Ewert, Bart Johnson

Integrated Engineering Department Publications

A new model for engineering education has been developed and funded. The model is 100% project based learning (PBL) where the students develop their own learning objectives. The projects are authentic needs contributed by collaborating industries. Students monitor the acquisition of 32 technical competencies and all of the design and professionalism competencies required of new practicing engineers. The reasons for the new model, description of the model, research supporting the model, methods for evaluating the model and its transportability are discussed.

Entrepreneurship In The Iron Range Engineering (Ire) Model, Dan Ewert, Ron Ulseth, Bart Johnson, Jeff Wandler, Andrew Lillesve

Integrated Engineering Department Publications

The aim of this paper is to describe a new model for engineering education that has entrepreneurship, in its many form, as a focus. Issues involved with integrating student-based entrepreneurship into the educational process are also described.