Displaying all 5 results
- Conference Session
- Multidisciplinary Design Projects
- Collection
- 2017 ASEE Annual Conference & Exposition
- Authors
- Alireza Yazdanshenas, University of Texas, Tyler ; Caleb Nathaniel Nehls, The University of Texas, Tyler; Chung-Hyun Goh, University of Texas, Tyler
- Tagged Divisions
- Multidisciplinary Engineering
the futureneed to be compatible with engineers of the older generation who might have limited to noknowledge of fields outside of their practice. To succeed in the future workforce engineeringstudents not only need technical knowledge, creativity, and soft skills, but also the quality tosynergize into engineering systems that include multiple disciplines. With these newrequirements of the future engineering education face a new duty of introducing challenges ofmultidisciplinary design and projects to its students. At the university level, the most effective way to unify various engineering fields is byintegrating students through multidisciplinary design projects. These projects encourage teams ofstudents to tackle engineering
- Conference Session
- Investigating Instructional Strategies
- Collection
- 2017 ASEE Annual Conference & Exposition
- Authors
- Ada Hurst, University of Waterloo; Mehrnaz Mostafapour, University of Waterloo; Rania Al-Hammoud P.Eng., University of Waterloo; Andrea Prier, University of Waterloo; Erin Jobidon, University of Waterloo; Carol Hulls P.Eng., University of Waterloo; Christopher Rennick, University of Waterloo; Jason Grove P.E., University of Waterloo; Eugene Li, University of Waterloo; Sanjeev Bedi P.Eng., University of Waterloo
- Tagged Divisions
- Multidisciplinary Engineering
programs, the belief is that soft skills such asteamwork are self-learned, acquired organically through significant experiences of working inteams on engineering problems, whether in academic or industry contexts. In the other extreme,the belief is that if a skill is required, it should be taught explicitly, through planned courseinstruction. Despite the perceived benefit of improving students’ employability, the burden ofadding significant and meaningful soft skills training is difficult to overcome in alreadyoverloaded engineering curricula. Thus, faculty buy-in of piloting and integrating teamworkmodules into courses is a continuing challenge, yet key to the long term sustainability of theinitiative and ultimate success of the team. There have
- Conference Session
- Multidisciplinary Course Efforts
- Collection
- 2017 ASEE Annual Conference & Exposition
- Authors
- Ravi T. Shankar, Florida Atlantic University; Teresa J. Sakraida, Florida Atlantic University, Christine E. Lynn College of Nursing; Francis Xavier McAfee, Florida Atlantic University
- Tagged Topics
- Diversity
- Tagged Divisions
- Multidisciplinary Engineering
rates.The main goal of this study is to understand how interdisciplinary instruction affects students’ability to identify, formulate, and solve problems, function on multidisciplinary teams, engagewith contemporary issues, communicate effectively in writing, verbally and visually, developappreciation of the impact of planning and engineering solutions in a variety of societal contexts,and develop understanding of their professional and ethical responsibilities. Soft skills, such ascommunication, team spirit, leadership, sociability, time management, documentation,presentation, ethics, negotiation, etc., are all critical in successful delivery of a standout App. Oursurvey questions cover these aspects in a succinct manner.Evaluation Design for
- Conference Session
- Investigating Instructional Strategies
- Collection
- 2017 ASEE Annual Conference & Exposition
- Authors
- Harold R. Underwood, Messiah College
- Tagged Topics
- Diversity
- Tagged Divisions
- Multidisciplinary Engineering
beenproviding students with supplemental philosophical and cultural background to the engineeringdiscipline, and soft-skills with practical preparation to help them get started in their career, theadvent of the ELI mandate at our school makes S1-2 an ideal place to embed the ELI elements.Three signature elements of the ELI graduation requirement at Messiah College have beenformulated to ensure authenticity, per the Kolb model, but also uniquely orient a student “…tooutcomes related to enhanced career preparation and community engagement.” The ELIsignature elements are 1) learning objectives, 2) learning outcomes and 3) the ELI deliverable.Students are required to design their learning objectives at the beginning of the experience infour areas: a
- Conference Session
- Edifying Engineering Education through Multidisciplinary Efforts
- Collection
- 2017 ASEE Annual Conference & Exposition
- Authors
- Behnaam Aazhang, Rice University; Randal T. Abler, Georgia Institute of Technology; Jan P. Allebach, Purdue University, West Lafayette (College of Engineering); L. Franklin Bost, Virginia Commonwealth University; Joseph R. Cavallaro, Rice University; Edwin K. P. Chong Ph.D., Colorado State University; Edward J. Coyle, Georgia Institute of Technology; Jocelyn B. S. Cullers, Boise State University; Sonya M. Dennis, Morehouse College; Yingfei Dong, University of Hawai'i at Mānoa; Prasad N. Enjeti, Texas A&M University; Afroditi V. Filippas, Virginia Commonwealth University; Jeffrey E. Froyd, Texas A&M University; David Garmire, University of Hawai'i at Mānoa; Jay George; Brian E. Gilchrist, University of Michigan; Gail S. Hohner, University of Michigan; William L. Hughes, Boise State University; Amos Johnson, Morehouse College; Charles Kim, Howard University; Hale Kim, INHA University; Robert H. Klenke, Virginia Commonwealth University; Magdalini Z. Lagoudas, Texas A&M University; Donna C. Llewellyn, Boise State University; Yung-Hsiang Lu, Purdue University, West Lafayette (College of Engineering); Kevin James Lybarger, University of Washington; Stephen Marshall P.E., University of Strathclyde; Subra Muralidharan, University of California, Davis; Aaron T. Ohta, University of Hawai'i at Mānoa; Francisco Raul Ortega, Florida International University; Eve A. Riskin, University of Washington; David M. Rizzo; Candace Renee Ryder, Colorado State Univerisity; Wayne A. Shiroma, University of Hawai'i at Mānoa; Thomas J. Siller, Colorado State University; J. Sonnenberg-Klein, Georgia Institute of Technology; Seyed Masoud Sadjadi, Florida International University; Scott Munro Strachan, University of Strathclyde; Mohsen Taheri, Florida International University; Gary L. Woods, Rice University Department of Electrical & Computer Engineering; Carla B. Zoltowski, Purdue University, West Lafayette (College of Engineering); Brian C. Fabien, University of Washington; Phiilp Johnson, University of Hawaii at Manoa; Robert Collins, Univesrity of Strathclyde at Georgia Tech; Paul Murray
- Tagged Topics
- Diversity
- Tagged Divisions
- Multidisciplinary Engineering