Displaying all 16 results
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- Multidisciplinary Engineering Division (MULTI) Technical Session 2
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- 2023 ASEE Annual Conference & Exposition
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- Eleanor Leung, York College of Pennsylvania; Stephen Andrew Wilkerson, P.E., York College of Pennsylvania
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McMaster University.Dr. Stephen Andrew Wilkerson, P.E., York College of Pennsylvania Stephen Wilkerson (swilkerson@ycp.edu) received his PhD from Johns Hopkins University in 1990 in Mechanical Engineering. His Thesis and initial work was on underwater explosion bubble dynamics and ship and submarine whipping. After graduation he took a ©American Society for Engineering Education, 2023 An Interdisciplinary Myoelectric Prosthetic Hand Capstone ProjectAbstractInterdisciplinary capstone projects have been used in engineering education to provide studentsan opportunity to collaborate on a project with students from other disciplines that are differentfrom their
- Conference Session
- Multidisciplinary Engineering Division (MULTI) Poster Session
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- 2023 ASEE Annual Conference & Exposition
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- Bob Rhoads, The Ohio State University; John Schrock, The Ohio State University
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. Industrial and Systems Engineering (Ohio State 2003) - M.S. Civil and Environmental Engineering (Ohio State 2008) - 7 years experience with consulting firm (civil engineering and project development) - 10th-year Senior Lecturer with EED at The Ohio State University ©American Society for Engineering Education, 2023 WORK-IN-PROGRESS: Incorporating Learning Strategies and Theory into a Multidisciplinary Design Capstone CourseIntroductionThis work in progress paper explains modifications made to the senior-level multidisciplinarydesign capstone course based on student learning theories and strategies. In the summer of 2022,the Multidisciplinary Design
- Conference Session
- Multidisciplinary Engineering Division (MULTI) Technical Session 8
- Collection
- 2024 ASEE Annual Conference & Exposition
- Authors
- Abdulrahman Alsharif, Virginia Polytechnic Institute and State University; David Gray, Virginia Polytechnic Institute and State University; David B Knight, Virginia Polytechnic Institute and State University; Isil Anakok, Virginia Polytechnic Institute and State University
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]. UREs come in many modalities, such as traditional faculty-student collaborations, project-basedinitiatives, community-based projects, capstone projects, internships, co-ops, course-based undergraduateresearch experiences, international research opportunities, and programs like Vertically IntegratedProjects (VIP). These initiatives provide students with versatile chances to participate in hands-onexperiences, acquire methodological expertise, and make meaningful contributions to advancingknowledge in their respective disciplines. [1], [4], [5]. Moreover, the scholarly literature reveals thatparticipation in UREs yields substantial benefits for students pursuing STEM careers. Research findingsshow that UREs can lead to a better understanding of
- Conference Session
- Multidisciplinary Engineering Division (MULTI) Technical Session 7
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- 2024 ASEE Annual Conference & Exposition
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- Christopher Rennick, University of Waterloo; Nadine Ibrahim, University of Waterloo; Gordon Krauss, Harvey Mudd College
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Paper ID #41521A Multi-institution Design Project on Sustainable Cities: The Sustainabilityand Social Entrepreneurship FellowshipMr. Christopher Rennick, University of Waterloo Mr. Christopher Rennick received his B.A.Sc., Honours Electrical Engineering in 2007 and his M.A.Sc. in Electrical Engineering in 2009, both from the University of Windsor, in Windsor, Ontario, Canada. Chris is the Engineering Educational Developer in the Pearl Sullivan Engineering Ideas Clinic at the University of Waterloo, where he focuses on implementing hands-on, real-world design experiences across Waterloo’s engineering programs. Chris is
- Conference Session
- Multidisciplinary Engineering Division (MULTI) Technical Session 6
- Collection
- 2023 ASEE Annual Conference & Exposition
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- Mary Ann Weitnauer; Jacqueline Rohde, Georgia Institute of Technology; Thomas Martin, Georgia Institute of Technology
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Raise Your Hand. The program brought together severalundergraduate capstone design teams, multiple sub-teams connected through a VerticallyIntegrated Projects (VIP) team, undergraduate researchers, extracurricular high school students,and a graduate student. The contribution of this work is the description of the evolving projectmanagements strategies that project leaders used to organize program efforts and integrate thestudent work for a successful deployment of the exhibit in Fall 2022.In this paper, we discuss the project context, team composition, learning outcomes, projectstages, and key techniques that coordinated and structured the project. The project contextdescribes the design vision for the Raise Your Hand exhibit, which was
- Conference Session
- Multidisciplinary Engineering Division (MULTI) Technical Session 7
- Collection
- 2023 ASEE Annual Conference & Exposition
- Authors
- Kristen Moore, University at Buffalo, The State University of New York; Liesl Folks, The University of Arizona; Erin Rowley, University at Buffalo, The State University of New York
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infiltrates many areas of engineering andscience. Yet within engineering programs, students often have few opportunities to developexpertise in data science or even to explore how data science is relevant to their degreespecializations. This paper reports on an NSF-funded study of a program that prepares STEMstudents to engage with data science in coursework and then mentors them as they secureinternships and complete a capstone that demonstrates their application of data science expertise.Drawing on a mixed-methods study, including student reflections, capstone project assessment,and survey reporting, this paper suggests not only that students make deep connections betweentheir existing majors and data science but also that students trained in our
- Conference Session
- Best of Multidisciplinary Engineering Division (MULTI)
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- 2024 ASEE Annual Conference & Exposition
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- Courtney Pfluger, Northeastern University; Susan M Lord, University of San Diego
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Paper ID #41385Work-In-Progress: Holistic, Multi-disciplinary Systems Approach to TeachingSustainable and Contextual Engineering Concepts for Undergraduate StudentsDr. Courtney Pfluger, Northeastern University Dr. Courtney Pfluger is an Associate Teaching Professor at Northeastern University. In 2011, began as an Assistant Teaching Professor in First-year Engineering Program where she redesigned the curriculum and developed courses with sustainability and clean water themes. In 2017, she moved to ChE Department where she has taught core courses and redesigned the Capstone design course with inclusion pedagogy practices
- Conference Session
- Multidisciplinary Engineering Division (MULTI) Technical Session 4
- Collection
- 2023 ASEE Annual Conference & Exposition
- Authors
- Daniel D. Burkey, University of Connecticut; Jorge Paricio Garcia, University of Connecticut; Davis Chacon-Hurtado, University of Connecticut; Edward Paul Weingart; Shareen Hertel, University of Connecticut; Shoshana Armington; Kathryn Libal, University of Connecticut
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academic advisor to list specialization-specific coursework intheir plan of study that closely aligns with their career goals.In addition to courses in the School of Engineering and associated programs, the MDE majoroffers a two-semester capstone project in all four areas. The capstone course encourages studentsto work on a single topic of investigation. The MDE program culminates in a presentation ofteam-based projects in the senior year. Those projects typically have industry sponsors.Program DevelopmentHistorically, students entered our School of Engineering through a direct-admit model, declaringtheir major at the time of matriculation. The school had a path for those students who did notdeclare a major, called Undecided Engineering. This
- Conference Session
- Multidisciplinary Engineering Division (MULTI) Technical Session 7
- Collection
- 2024 ASEE Annual Conference & Exposition
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- Jamie R Gurganus, University of Maryland, Baltimore County; Michael M. Malschützky, Hochschule Bonn-Rhein-Sieg, Germany
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- Multidisciplinary Engineering Division (MULTI)
), and the community at all levels (k12, undergraduate, graduate, post-graduate and internationally). A few of these key areas include engineering identity and mindsets, global competencies, failure culture, first year experiences in engineering, capstone design thinking, integrating service and authentic learning into the engineering classroom, implementing new instructional methodologies, and design optimization using traditional and non-traditional manufacturing. She seeks to identify best practices and develop assessments methods that assist in optimizing computing and engineering learning. Dr. Gurganus was one the inaugural award winners of the Diane M. Lee teaching award in 2021 and received an Exemplary Mentor
- Conference Session
- Multidisciplinary Engineering Division (MULTI) Poster Session
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- 2023 ASEE Annual Conference & Exposition
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- Teddy Ivanitzki, ASEE; Rolf Mueller, Virginia Polytechnic Institute and State University
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, show significant growth of cross-disciplinary, cross-cultural, and cross-boundary work needs. Some cross-disciplinary areas withparticular demand, now and for the future, are found at the intersection between engineering andthe life sciences. Engineers increasingly need competencies in life science areas that intersectwith their engineering disciplines. Engineers also must meet high-tech industry requirements ofworking cross-culturally, communicating effectively with all teams across the enterprise, andeffectively using time and project management skills. For STEM-specific roles, young engineersare required to have data science understanding, statistics knowledge, and computationalcapability especially if working with big data. In response
- Conference Session
- Multidisciplinary Engineering Division (MULTI) Technical Session 3
- Collection
- 2023 ASEE Annual Conference & Exposition
- Authors
- Robert Lijun Wang, University of Colorado, Boulder; Malinda S. Zarske, University of Colorado, Boulder
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, from first-year students in engineering projects courses tothird-, fourth-, and fifth-year students enrolled in the program’s core engineering courses (statics,circuits, materials) or senior capstone design. Classes range from engineering projects courses tocore engineering courses (statics, circuits, materials) to senior capstone design.SettingLaunched in 2014, the University of Colorado Boulder’s ABET-accredited Integrated DesignEngineering program allows undergraduate engineering students to select from among one of sixengineering areas of study (aerospace, architectural, civil, electrical, environmental, mechanical;called an emphasis) and combine that with an additional area of study outside of engineering(called a concentration). In the
- Conference Session
- Multidisciplinary Engineering Division (MULTI) Technical Session 5
- Collection
- 2023 ASEE Annual Conference & Exposition
- Authors
- Marina Dias; Sreyoshi Bhaduri, Amazon ; Amulya Mysore; Wanqun Zhao; Amelia Rivera-Burnett; Shahriar Sadighi; Robert Pulvermacher
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- Multidisciplinary Engineering Division (MULTI)
, since they will learn to look at the problem from differentangles before choosing a suitable path forward.2. Encourage internships.Internships are a great way to prepare students for careers on multi-disciplinary teams. Onebenefit is to allow students to learn if they like and think they can thrive in that environment. Thesecond is to already start acquiring the necessary skills to succeed in these positions early on.Internships which have a component around rotation across teams, also allow students to gainwider appreciation of how different positions interact, before having to dive deep into one role.On completion of junior-year internships, students can then bring back acquired skills to theirfinal year classes, capstone projects, and
- Conference Session
- Multidisciplinary Engineering Division (MULTI) Poster Session
- Collection
- 2023 ASEE Annual Conference & Exposition
- Authors
- Aidsa I. Santiago-Roman, University of Puerto Rico, Mayaguez Campus; Christopher Papadopoulos, University of Puerto Rico, Mayaguez Campus; Nayda G. Santiago P.E., University of Puerto Rico, Mayaguez Campus; Lourdes A. Medina; Ivan J. Baiges-Valentin, University of Puerto Rico, Mayaguez Campus
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Engineering Sciences and Materials at the ˜ University of Puerto Rico, MayagA¼ez Campus (UPRM). He earned B.S. degrees in Civil Engineering and Mathematics from Carnegie Mellon University (1993) andDr. Nayda G. Santiago, University of Puerto Rico, Mayaguez Campus Nayda G. Santiago is professor at the Electrical and Computer Engineering department, University of Puerto Rico, Mayaguez Campus (UPRM) where she teaches the Capstone Course in Computer Engineer- ing. She received an BS in EE from the University of PR, MayaDr. Lourdes A. MedinaDr. Ivan J. Baiges-Valentin, University of Puerto Rico, Mayaguez Campus ©American Society for Engineering Education, 2023
- Conference Session
- Multidisciplinary Division Technical Session 11
- Collection
- 2024 ASEE Annual Conference & Exposition
- Authors
- Duy Duong-Tran, United States Naval Academy; Siqing Wei, Purdue University, West Lafayette; Li Shen, University of Pennsylvania
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promote DEI. In addition, he also works on many research-to-practice projects to enhance educational technology usage in engineering classrooms and educational research.Li Shen, University of Pennsylvania Dr. Shen obtained his Ph.D. degree in Computer Science from Dartmouth College. He is a Professor of Informatics and Radiology in the University of Pennsylvania. His research interests include medical image computing, biomedical informatics, machine learning, trustworthy AI, NLP/LLMs, network science, imaging genomics, multi-omics and systems biology, Alzheimer’s disease, and big data science in biomedicine. ©American Society for Engineering Education, 2024Theorizing neuro-induced relationships
- Conference Session
- Multidisciplinary Engineering Division (MULTI) Technical Session 1
- Collection
- 2024 ASEE Annual Conference & Exposition
- Authors
- Pallavi Singh, University of South Florida; Luis Miguel Quevedo, IEEE Educational Activities; Grisselle Centeno, Florida Southern College; Wilfrido A. Moreno P.E., University of South Florida; Liliana M. Villavicencio, University of South Florida
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-criteria Team formation method explained in [26]. Multi-criteriateam formation will allow for diverse grouping of students i.e., with different EE tracks expe-rience and with diverse student demographics. The Lab will be an independent course withinthe undergraduate/graduate courses catalog.The MRC lab will also engage with industry partners such as (ABB in the robotic area, Rock-well International in industrial controls, and National Instruments for data acquisition and con-trol systems) these companies are major suppliers for the semiconductors industry, further-more, the proposed MRC Lab engagement with industry will come through a comprehensiveapproach that includes 1) internships and capstone projects, which will integrate industry ex-pertise
- Conference Session
- Multidisciplinary Engineering Division (MULTI) Technical Session 2
- Collection
- 2024 ASEE Annual Conference & Exposition
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- Yanjun Yan, Western Carolina University; Gael Graham, Western Carolina University; Russell Sarwar Kabir, Hiroshima University
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- Multidisciplinary Engineering Division (MULTI)
effectiveness of interdisciplinary instructional designpractices.IntroductionEngineers bear the professional responsibility to ensure that a given project benefits society bytaking into account the impact of human and social factors when making engineering decisionsand communicating technical expertise. Given the importance of such considerations [1], ABETaccreditation criteria explicitly target them as expectations for professional readiness. Inengineering and engineering technology curricula, project-based learning from freshman projectsto senior capstones and human-centered design [2] are highly effective pedagogies that areintegral to the curricula for all the students in the programs. To address societal factors inengineering design, an