Conference Session

Integrating Systems Engineering into the Capstone Project

Collection

2016 ASEE Annual Conference & Exposition

Authors

Fred J. Looft, Worcester Polytechnic Institute

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

Paper ID #15385Systems Engineering and Capstone ProjectsDr. Fred J. Looft, Worcester Polytechnic Institute Prof. Looft earned his B..S, M.S. and Ph.D. degrees in Electrical Engineering at the University of Michi- gan. After a brief period on industry, he joined the faculty of WPI 1n 1980 where he is now a professor in the ECE department and a founder of, and Academic Head of the Systems Engineering program. His interests include projects based education, curriculum development, international study abroad programs and mentoring, and autonomous robotic systems.. c American Society for Engineering

Conference Session

Integrating Systems Engineering into the Capstone Project

Collection

2016 ASEE Annual Conference & Exposition

Authors

Armand Joseph Chaput, Department of Aerospace Engineering and Engineering Mechanics University of Texas at Austin

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

what to document andhow as discussed in Section 5.5. Instructor Guide to SE Design Application to Capstone Courses This section is generalizes our aerospace-focused SE Design approach for other engineeringdisciplines interested in SE Design application to capstone and other design related courses. Thegeneralized approach was developed with SERC sponsorship through the Capstone MarketplaceProject8. As shown in Figure 12, capstone courses have multiple implementation options. Theoptions include project deliverable type which we categorize as (1) Products (hardware orsoftware including reports) and (2) Reports. Product focused projects increase workload for bothstudents and instructional teams and competitive (single projects) reduce workload

Conference Session

Integrating Systems Engineering into the Capstone Project

Collection

2016 ASEE Annual Conference & Exposition

Authors

Vigyan Jackson Chandra, Eastern Kentucky University

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

communication skills. c American Society for Engineering Education, 2016 Solution-based learning (SBL): Using systems engineering principles to guide capstone projects in technologyAbstractIn this paper, a new learning framework – solution-based learning (SBL) – is introduced. Itoffers a way of motivating students to continuously improve products or processes based onpractical or aesthetic considerations. This learning framework keeps the focus on early andsustained success through all phases of a project. It leverages selected principles of SystemsEngineering such as developing a discovery-oriented, multidisciplinary, life-cycle view ofany given project. It also provides learners with the

Conference Session

Integrating Systems Engineering into the Capstone Project

Collection

2016 ASEE Annual Conference & Exposition

Authors

Wagdy H Mahmoud, University of the District of Columbia; Sasan Haghani, University of the District of Columbia; Roussel Kamaha

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

, University of the District of Columbia Sasan Haghani, Ph.D., is an Associate Professor of Electrical and Computer Engineering at the University of the District of Columbia. His research interests include the application of wireless sensor networks in biomedical and environmental domains and performance analysis of communication systems over fading channels.Roussel Kamaha c American Society for Engineering Education, 2016 Real-Time System Implementation for Video ProcessingAbstractThis paper details the results of a capstone design project to develop a real-timehardware/software video processing system to implement Canny edge detection algorithm on aZynq FPGA platform. The HSL tool, part of

Conference Session

Systems Engineering Learning Outcomes and Assessment

Collection

2016 ASEE Annual Conference & Exposition

Authors

Kamran Iqbal, University of Arkansas, Little Rock; Gary T. Anderson, University of Arkansas, Little Rock

Tagged Divisions

Systems Engineering

student outcome were met, but were within 3% of beingunsatisfactory. Table 1: Assessment instruments used to assess student outcomes Assessment Instrument Student Outcomes Assessed a b c d e f g h i j k Homework Problems x x x x x x x Exams x x x x x Capstone Project Assessment x x Peer Evaluations x Video and Exam x Capstone Reports x x x x x

Conference Session

Systems Engineering Learning Outcomes and Assessment

Collection

2016 ASEE Annual Conference & Exposition

Authors

Jeremiah J. Neubert, University of North Dakota

Tagged Divisions

Systems Engineering

. Hole. “Using a Marketplace to Form Multidisciplinary Systems Engineering Capstone Project Teams.” Proc. of the ASEE Annual Conference, June 2014.5. K. Shimazu, and Y. Ohkami. “Systems engineering education for inexperienced students by providing hand-on practices.” IEEE Systems Conference (SysCon), 2011, pp. 367- 370.6. W. Bauer, W. Biedermann, B. Helms and M. Maurer, “A student laboratory for Systems Engineering: Teaching Systems Engineering to students without previous SE-knowledeg based on an industry-oriented example,” IEEE Systems Conference (SysCon), 2012, pp. 1-6.7. J. Valasek, and K. Shryock, “Enhancing Systems Engineering Content in Aerospace Courses: Capstone Design and Senior Technical Electives

Conference Session

Systems Engineering Learning Outcomes and Assessment

Collection

2016 ASEE Annual Conference & Exposition

Authors

Peizhu Zhang, Stevens Institute of Technology; Douglas A. Bodner, Georgia Institute of Technology; Richard Glenn Turner, Stevens Institute of Technology; Ross David Arnold, Stevens Institute of Technology; Jon Patrick Wade, Stevens Institute of Technology (School of Systems & Enterprises)

Tagged Divisions

Systems Engineering

for team-based learning, aswell as for a mentor to provide advice and feedback.Applied in an academic setting, the SEEA concept provides the possibility for a much broaderscope of learning environments than a capstone project or industry internship. These moretraditional approaches provide a beneficial learning experience and support integrating thevarious components of the SE body of knowledge, but are limited by time and domain. Thecapstone is usually a single project and at most a year in length. If it covers the full lifecycle,then it must be a fairly simple project and most likely represents only one domain. An internshipis even more limited, given that few companies would assign a student to a significant role orprovide much variation