scholarly journals DEVELOPMENT AND IMPLEMENTATION OF A CROSS DISCIPLINE CAPSTONE DESIGN EXPERIENCE AT THE UNIVERSITY OF MANITOBA

2017 ◽  
Author(s):  
W.C.D. DeGagne ◽  
Paul Labossiere
Keyword(s):  
Engineering Education ◽  
Real World ◽  
Capstone Course ◽  
Engineering Program ◽  
Engineering Discipline ◽  
Respective Discipline ◽  
University Of Manitoba ◽  
The University ◽  
Capstone Design Courses ◽  
Capstone Design

One of the most effective and efficient ways for an engineering program to facilitate compliance with the Canadian Engineering Accreditation Board (CEAB) accreditation criteria is through capstone design projects and courses. Currently, the University of Manitoba Faculty of Engineering has several capstone design courses; however, each is independently focused on its own respective discipline. The resulting educational experience for students, though rigorous and challenging, is maintained within the boundaries of the students’ engineering discipline, thereby neglecting to provide the opportunity for students to work with people from multiple disciplines and across multiple fields. This style/mode of education, where students work in silos, arguably does not reflect real world engineering. Program representatives from the Faculty of Engineering agree. An interdisciplinary capstone course would provide a more rounded engineering education for students. Exposing students to other disciplines and facilitating their learning of the knowledge, skills and behaviours required to work in a multidisciplinary capacity will more effectively prepare students for the real world. Thus, to better comply with CEAB requirements and to increase the breadth and depth of students’ engineering education, an interdisciplinary capstone pilot course will be launched at the University of Manitoba.This paper explains how this multidisciplinary capstone pilot program has been developed, and touches on the early stages of its initiation and implementation.

scholarly journals DESIGN OF A CONSISTENT INTERDISCIPLINARY AND DUAL FACULTY CAPSTONE EXPERIENCE AT THE UNIVERSITY OF MANITOBA

2018 ◽  
Author(s):  
W.C.D. DeGagne ◽  
Paul E. Labossiere
Keyword(s):  
Real Life ◽  
Engineering Program ◽  
Engineering Discipline ◽  
Respective Discipline ◽  
University Of Manitoba ◽  
The Difference ◽  
Interdisciplinary Courses ◽  
The University ◽  
Capstone Design Courses ◽  
Capstone Design

Abstract - One of the most effective and efficient ways for an engineering program to facilitate compliance with the Canadian Engineering Accreditation Board (CEAB) accreditation criteria is through capstone design projects and courses, [1]. Currently, the University of Manitoba Faculty of Engineering has several capstone design courses; however, each is independently focused on its own respective discipline. The resulting educational experience for students, though rigorous and challenging, is maintained within the boundaries of the students’ engineering discipline, thereby neglecting to provide the opportunity for students to work with people from multiple disciplines and across different faculties. This style/mode of education, where students work in silos, arguably does not reflect real world engineering. Program representatives from the Faculty of Engineering at the University of Manitoba agree that the capstones should be more reflective of real life situations. For this paper, we were hoping to present the research results of a pilot interdisciplinary capstone that was to be launch in the winter of 2017. Unfortunately, the pilot course was not offered because of low student enrollment. So we decided to take an innovative and creative approach to the research. Since, at the University of Manitoba, the Dean of Engineering is also the Dean of the Faculty of Architecture, rather than team with an outside industry focus group, we decided to develop a holistic course with the Faculty of Architecture. The Dean supports this strategy. Interdisciplinary courses are most important because they "…articulate the difference between educational problems and workplace problems" [2]. And allow "(students) persons from different disciplines to work collaboratively and are integrated to combine their knowledge to solve a problem"[3]. This paper explores and explains how that Engineering/Architecture Multidiscipline Capstone and Dual Faculty course will be developed, touches on the early stages of its initiation and implementation, and outlines how the success of the new course will be evaluated.  

scholarly journals Improving Classroom Engagement to Maximize Learning in an Interdisciplinary Dual Faculty Capstone Experience at the University of Manitoba

2018 ◽  
Author(s):  
William C.D. DeGagne ◽  
Paul E. Labossiere
Keyword(s):  
Real Life ◽  
Capstone Course ◽  
Engineering Program ◽  
Capstone Courses ◽  
Future Assessment ◽  
Education Association ◽  
University Of Manitoba ◽  
The Difference ◽  
The University ◽  
Capstone Design

One of the most effective and efficient ways for an engineering program to facilitate compliance with the Canadian Engineering Accreditation Board (CEAB) accreditation criteria is through capstone design projects and courses [2]. Currently, The University of Manitoba Faculty of Engineering has several capstone design courses; however, each is independently focused on its own respective discipline. The resulting educational experience for students, though rigorous and challenging, is maintained within the boundaries of the students’ engineering discipline, thereby neglecting to provide the opportunity for students to work with people from multiple disciplines and across different faculties. This method of education, where students work in isolation, arguably does not reflect real world engineering. Through internal focus group meetings, program representatives from the Faculty of Engineering at The University of Manitoba agree that the capstones should be more reflective of real life situations. Interdisciplinary courses are most important because they “…articulate the difference between educational problems and workplace problems” [1]. Hence, to allow “(students) persons from different disciplines to work collaboratively and are integrated to combine their knowledge to solve a problem” (sic)[4], interdisciplinary capstone courses are essential to a rounded engineering education. Furthermore, teaming with the Faculty of Architecture will provide several benefits for both facilities such as: develop lifelong learning patterns; foster cooperative and collaborative team relationships; and, allow both facilities to learn the other’s cultures and technical languages.Since 2016, The University of Manitoba has presented research papers at the Canadian Engineering and Education Association (CEEA) conferences on the development and future assessment of an interdisciplinary capstone course. These papers have shown the evolution of the course from a multidisciplinary engineering program to an interdisciplinary Engineering and Architectural dual faculty offering. The course was launched in January, 2018, and will be evaluated through the winter session and into the fall.This paper, will explore, define, and explain how the proposed new engineering/architecture interdisciplinary capstone and dual faculty course will be developed, highlight the early stages of its initiation, describe the ongoing implementation, outline how the performance of the new course will be evaluated, delve into how the new course will be improved to make it more meaningful and practical to both faculties and students, and; discover how engagement can improved student learning.

Mechatronics as a Capstone Design Course

1999 ◽  
Author(s):  
William R. Murray ◽  
Joseph L. Garbini
Keyword(s):  
Real World ◽  
Mechanical Engineering ◽  
Learning Experiences ◽  
University Of Washington ◽  
High Regard ◽  
The University ◽  
Capstone Design Courses ◽  
Capstone Design

Abstract Capstone design courses in engineering, which provide students the opportunity to tackle open-ended, real-world projects, are generally held in high regard as learning experiences. A relatively new and increasingly important component of engineering is the area of mechatronics. In this paper, we review the goals of capstone design courses and examine how well suited mechatronics projects are for use as projects in capstone design courses. Our experiences in using mechatronics projects in the senior-level capstone design course in the Department of Mechanical Engineering at the University of Washington are presented. From these experiences, we demonstrate that mechatronics projects are particulary well suited for use in capstone design.

scholarly journals THE IMPACT OF INDIGENOUS KNOWLEDGES AND PERSPECTIVES IN ENGINEERING EDUCATION: ONE STUDENT’S STORY

2021 ◽  
Author(s):  
George Kilada ◽  
Victoria Thomsen ◽  
Jillian Seniuk Cicek ◽  
Afua Adobe Mante ◽  
Randy Herrmann
Keyword(s):  
Engineering Education ◽  
Narrative Structure ◽  
Problem Solution ◽  
Indigenous Knowledges ◽  
Narrative Study ◽  
Narrative Interview ◽  
The Future ◽  
University Of Manitoba ◽  
The University ◽  
The Impact

A qualitative narrative study was designed to examine the impact on students’ learning when an Elder came to speak to students in a Technology, Society and the Future course in the Price Faculty of Engineering at the University of Manitoba. This study accounts for one student’s story as heard through an open-ended narrative interview facilitated by a team of researchers, and restoried into a problem-solution narrative structure. The preliminary findings highlight the impact of the Elder’s teachings on the student, the importance of Indigenous People’s Knowledges and perspectives in engineering education, and the importance of making space for students to reflect on these learnings.

scholarly journals FROM MECHANICAL ENGINEERING CAPSTONE DESIGN TO DESIGN IMPLEMENTATION

2017 ◽  
Author(s):  
Patrick Dumond ◽  
Eric Lanteigne
Keyword(s):  
Experiential Learning ◽  
Engineering Design ◽  
Mechanical Engineering ◽  
Capstone Course ◽  
Capstone Courses ◽  
Engineering Theory ◽  
Teaching Design ◽  
The University ◽  
The Relationship ◽  
Capstone Design

Traditionally, mechanical engineering capstone courses focused on teaching students the application of fundamental engineering theory to complex mechanical designs. Recently, there has been a transition towards experiential learning initiatives, such as prototyping, in engineering design. This paper looks at the relationship between the mechanical engineering design capstone course and a course in product design and development, which provides students with the opportunity to build prototypes of their designs, at the University of Ottawa. The importance of the traditional capstone course is considered and the implications of implementing these designs are examined. Many capstone design projects would require extensive work so that they could be implemented. A large hurdle appears to exist between analytical design and design implementation, and the term time constraints limit the complexity of designs intended for prototyping. In fact, students require many design iterations before they can build full-scale functional prototypes of their design. Therefore, we have observed that simple products work best for teaching design implementation.

scholarly journals DESIGN AND INNOVATION IN WESTERN'S INTEGRATED ENGINEERING PROGRAM

2011 ◽  
Author(s):  
Ralph O. Buchal
Keyword(s):  
Engineering Education ◽  
Engineering Design ◽  
Emerging Technologies ◽  
Career Goals ◽  
Design Problems ◽  
Engineering Program ◽  
Design Projects ◽  
The University

Society needs innovators to solve pressing design problems, and emerging technologies drive innovation. The Integrated Engineering Program offered at the University of Western Ontario develops engineering innovators by offering an interdisciplinary engineering education with emphasis on emerging technologies and engineering design. The program incorporates design in every year, and offers students the unique opportunity to participate in large multi-year design projects as part of their formal engineering education. A survey shows that students rate these features of the program important and valuable contributors toward their career goals.

scholarly journals INTERDISCIPLINARY CAPSTONE DESIGN STREAM AT THE UNIVERSITY OF WATERLOO: IMPLEMENTATION PLAN

2012 ◽  
Author(s):  
Cherly Pearce ◽  
Steve Lambert ◽  
Wayne Parker
Keyword(s):  
Team Members ◽  
Course Structure ◽  
Capstone Course ◽  
Undergraduate Engineering ◽  
Capstone Courses ◽  
Interdisciplinary Design ◽  
Project Deliverables ◽  
The University ◽  
Logistical Barrier ◽  
Capstone Design

An interdisciplinary design approach is a collaborative effort involving team members from different engineering disciplines to solve a problem. An opportunity for interdisciplinary education exists in the fourth year capstone design project. Interdisciplinary capstone courses are offered at other Canadian universities but, at the University of Waterloo (UW) the co-operative undergraduate engineering program poses a logistical barrier to students interacting with students in other disciplines for capstone design projects. Currently, students can form their own interdisciplinary team but differences in course structure, project deliverables, and design terminology and method between engineering disciplines is challenging for students and instructors. An investigation into the feasibility of a new interdisciplinary capstone design course at UW is undertaken. A possible home for the interdisciplinary capstone course could be under the Chair of Design Engineering. Overall, receptivity among departments is positive but a more comprehensive analysis is required.

scholarly journals THE GRADUATE SPECIALIZATION IN ENGINEERING EDUCATION

2021 ◽  
Author(s):  
Jillian Seniuk Cicek ◽  
Marcia Friesen ◽  
Danny Mann ◽  
Nishant Balakrishnan ◽  
Renato Bezerra Rodrigues ◽  
...  
Keyword(s):  
Engineering Education ◽  
Doctoral Students ◽  
Graduate Programs ◽  
Degree Programs ◽  
University Departments ◽  
Substantial Growth ◽  
Graduate Research ◽  
University Of Manitoba ◽  
Engineering Education Research ◽  
The University

There has been substantial growth in the formal focus on the pedagogy of engineering in the last two decades. Formalized pathways in Engineering Education (Eng.Ed), including Master’s and Ph.D. degree programs and university departments, have been established in several prestigious universities globally, with many founded in the U.S.. Interest in Eng.Ed in Canada has also grown, but up until very recently there has only been one formal pathway for graduate research in this field. In Fall 2020, the Department of Biosystems Engineering at the University of Manitoba welcomed the first three doctoral students into the Graduate Specialization in Eng.Ed (GSEE).  In this paper we discuss the motivations for, and objectives and benefits of the GSEE, and describe its development. We share challenges encountered, and opportunities envisioned, and theintentions and motivations of the three graduate students who chose this pathway. We reflect on the importance of Eng.Ed programs for the advancement of engineering education research and the development of the discipline in Canada. Descriptions of our efforts and challenges areintended to help the development of additional Eng.Ed specializations or graduate programs in Canada.

scholarly journals Effective Coordination of Capstone Design Work Using Milestones

2018 ◽  
Author(s):  
Michel F. Couturier ◽  
Guida Bendrich ◽  
Francis Lang
Keyword(s):  
Chemical Engineering ◽  
Final Report ◽  
Design Work ◽  
Management Framework ◽  
Engineering Program ◽  
Continuous Feedback ◽  
Added Benefit ◽  
The University ◽  
Better Than ◽  
Capstone Design

 Abstract – A universal management framework has been developed for coordinating the work of students and mentors in the capstone design course offered in the Chemical Engineering program at the University of New Brunswick. The framework makes use of seven evenly spaced milestones to pace the students through their design project. The milestone documents describe the main tasks to be completed by students and apply to any client-based project. They also provide the marking scheme to be used by mentors when evaluating the team reports submitted at the end of each milestone. As an added benefit, the universal milestone framework also enables the progressive assembly of a high-quality final report since each milestone report is tailored to be a section of the final report. As expected, the performance of students on the final report is generally better than the average of their milestone grades. Furthermore, the universal framework ensures deliverables are consistent for every group regardless of their project, which results in a streamlined experience for both students and instructors. Student opinion surveys suggest that students appreciate the frequency of the milestones, which allows for continuous feedback and appropriate pacing.

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