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

ideas rooted inSystems Engineering.The International Council on Systems Engineering (INCOSE)1 defines Systems Engineeringas “an interdisciplinary approach and means to enable the realization of successful systems.”The Systems Engineering Body of Knowledge (SEBoK), created by Body of Knowledge andCurriculum to Advance Systems Engineering (BKCASE) project2, notes that systemsengineering includes the “full life cycle of successful systems, including problemformulation, solution development and operational sustainment and use.” As noted in theSEBoK, a host of criteria such as continuous process improvement, considerations fortradeoffs, system integration, safety, recycling, etc., are needed while developing solutions fortechnical problems. In fact

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

Education, 2016 Systems Engineering and Capstone Projects Abstract Systems Engineering (SE) methods are increasingly being integrated into capstone design projects as a critical component of capstone design competitions, through mentoring during capstone project advising, and through capstone course syllabi development. In this paper, we describe an “engineering science” course developed specifically to teach selected SE topics and designed to primarily prepare third and fourth year undergraduate students for their engineering (ABET) capstone project. The course was developed using an inverted classroom format where students view short, topic

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

isinterested in integrating SE Design into their course. Therefore, our 1st recommendation is tostart off with a singular focus on engineering discipline capstone learning objectives includinglevels of SE knowledge required for today's projects, most of which are multi-disciplinary.When you are satisfied with the learning objectives, superimpose curriculum and facility/facultyconstraints that limit course content and structure. Then within the constraints including credithours and semester schedule, functionally define what you think would be one or more idealprojects that satisfy your SE Design learning objectives. Generalize the results in the form ofproject selection criteria and then and only then start looking for company or organizationsponsored

Conference Session

Multidisciplinary Outreach and Early Transdisciplinary Courses

Collection

2016 ASEE Annual Conference & Exposition

Authors

Candido Cabo, New York City College of Technology; Reneta Davina Lansiquot, New York City College of Technology

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

Engineering Education, 2016 Integrating Creative Writing and Computational Thinking to Develop Interdisciplinary ConnectionsAbstractA typical college curriculum does not make it easy for students to establish connections betweenrequired general education courses and courses in their majors. Intentional linking of coursesfrom different disciplines using interdisciplinary pedagogical strategies allows students to makethose connections while developing the interdisciplinary skills which will benefit their collegeand post-college careers.In addition to communication, critical thinking and reasoning, and collaborative skills, it hasbeen recently argued that computational thinking (i.e., the application of computing concepts

Conference Session

Multidisciplinary Teamwork

Collection

2016 ASEE Annual Conference & Exposition

Authors

A Zachary Trimble, University of Hawaii at Manoa; Wayne A. Shiroma, University of Hawaii at Manoa; David Garmire, University of Hawaii at Manoa; Aaron T. Ohta, University of Hawaii at Manoa

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

Paper ID #15908Multidisciplinary Vertically Integrated Project (VIP) Teams at the Universityof Hawaii: Challenges and SynergyDr. A Zachary Trimble, University of Hawaii at Manoa A Zachary Trimble is an Assistant Professor of Mechanical Engineering and self described Gizmolo- gist. Zac received his bachelor’s from the University of Utah and both his Masters’ and PhD from Mas- sachusetts Institute of Technology (MIT) for his work on Vibration Energy Harvesting. Currently Zac is pursuing research in precision astronomical instruments, Anisotropy in 3D printing, Frequency Tuning of Vibration Energy Harvesters, automating

Conference Session

Multidisciplinary Teamwork

Collection

2016 ASEE Annual Conference & Exposition

Authors

Pilar Pazos, Old Dominion University; Nina Magpili, Engineering Management & Systems Engineering (EMSE), Old Dominion University; Zikai Zhou, Old Dominion University; Luis Jose Rodriguez, Naval Surface Warfare Center Dahlgren Division

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

ofcollaboration technologies. Although there has been great emphasis on developing collaborationcompetencies in the engineering curriculum, empirical evidence of successful strategies fordistributed team settings is scarce. As an attempt to fill this gap this study investigates theimpact of a scalable intervention in developing virtual collaboration skills. The intervention,based on instructional scaffolds embedded with collaboration technologies, is aimed atsupporting specific processes including planning, goal setting, clarifying goals and expectations,communication, coordination and progress monitoring. A quasi-experimental design was used toevaluate the impact of the intervention on student teamwork skills. Data from 278 graduate andundergraduate

Conference Session

Multidisciplinary Effects on Student Learning

Collection

2016 ASEE Annual Conference & Exposition

Authors

Katherine Ortegon, Universidad Icesi

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

with engineeringtechniques and problem solving; and a set of “soft skills” associated with professional practiceand work environment skills. Although the means to develop each of these hard and professionalskills individually has been discussed in the past, since the creation of the ABET accreditationsystem, educational research has been centered on assessment methods and learning methods toimprove the attainment of (a)-(k) outcomes in students.2,3,4 Little attention has been given tolearning strategies that develop multiple student outcomes in an integrated way and theassessment and impact of real-world learning experiences on the developing of multi-outcomes.5,6The Solar Decathlon competition is one example of a variety of alternatives

Conference Session

Multidisciplinary Efforts in Introductory Courses

Collection

2016 ASEE Annual Conference & Exposition

Authors

Tiffany L. Hesser, University of New Haven; Stefanie R. Bunyea, MacDermid Enthone

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

Paper ID #14832Development and Implementation of Problem-based Chemistry Experimentsfor Engineering Students in a Multi-disciplinary CourseDr. Tiffany L. Hesser, University of New Haven Tiffany Hesser is a Senior Lecturer in the Engineering and Applied Science Education Department and the Chemistry and Chemical Engineering Department at the University of New Haven. With an M.S. in science education and an Ed.D. in educational leadership, her research efforts have been concentrated on technology integration, student learning with a strong focus on under-prepared student populations, and classroom design. She is the course

Conference Session

Multidisciplinary Effects on Student Learning

Collection

2016 ASEE Annual Conference & Exposition

Authors

Jennifer Harper Ogle, Clemson University; Jeffery M Plumblee II, Clemson University; David E Vaughn, Clemson University; Aaron S. Gordon, Clemson University

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

to better preparestudents to meet the challenges they will face in the global economy. Service-learning combinesservice to a community with academic curriculum; students apply their discipline-specificknowledge to community problems, thus engaging in problem-based learning (PBL) whileproviding needed services to underserved populations.20 In service-learning courses, studentshave an opportunity to solve an ill-defined real-world problems with teams of students, oftenacross multiple disciplines, which helps to broaden their “lateral” or non-technical skillsets,better equipping them for the workplace. The programmatic benefits of service-learning include:enhancement of classroom learning,21 increased student retention,22 and increased

Conference Session

Multidisciplinary Effects on Student Learning

Collection

2016 ASEE Annual Conference & Exposition

Authors

Tela Favaloro, University of California, Santa Cruz; Tamara Ball, University of California, Santa Cruz; Zachary W Graham, University of California, Santa Cruz; Michael S. Isaacson, University of California, Santa Cruz

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

an articulated “communitycollege to university success program” (CUSP) located at Hartnell’s newly constructed“Advanced Technology” campus, which among other advantages, functions as a livinglaboratory for research on micro-grid control and integration. The program’s holistic approachto workforce development integrates design of sustainability curriculum, student internships,professional training, hands-on technology usage and its implementation; incorporatingexperiential learning with real world consequence into the classroom. CUSP primarily servesstudents from the community college and neighboring high schools in the Salinas Valley, andstrives to give these students, who may otherwise have minimal access to technological resourcesand

Conference Session

Multidisciplinary Efforts in Introductory Courses

Collection

2016 ASEE Annual Conference & Exposition

Authors

Nicholas A Baine P.E., Grand Valley State University; Huihui Qi, Grand Valley State University

Tagged Divisions

Multidisciplinary Engineering

Promote Multidisciplinary Skills in a Freshman Engineering ProgramIntroduction This paper addresses the lack of student interest in topics outside of their discipline; thisis even true for some students in all courses regardless of topic. However, all topics, especiallyfundamental ones are important in an engineering education because engineers are facingincreasingly complex challenges and opportunities; consequently, collaboration betweenengineers of multiple disciplines becomes very important. ABET goes as far as to list “an abilityto function on multidisciplinary teams” as a required student outcome for an undergraduateengineering program to be accredited. Engineering curriculums are somewhat designed toaddress

Conference Session

Multidisciplinary Efforts in Introductory Courses

Collection

2016 ASEE Annual Conference & Exposition

Authors

Elena Nicolescu Veety, North Carolina State University; Michael Escuti, North Carolina State University; Mehmet C. Ozturk, North Carolina State University

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

Nanosystems Engineering Research Center for Advanced Self-Powered Systems of Integrated Sensors and Technologies (ASSIST).Dr. Michael Escuti, North Carolina State University Dr Michael Escuti is Associate Professor in the Department of Electrical and Computer Engineering at North Carolina State University. He earned his PhD’02 and MS’99 degrees at Brown University and BS’97 degree at Drexel University. He has taught a wide range undergraduate classes, including in cir- cuits, electromagnetics, photonics, organic electronics and nanotechnology, and since 2010 serves as Chair of the ECE Course and Curriculum Committee.Prof. Mehmet C. Ozturk, North Carolina State University Mehmet C. Ozturk received his BS degree in

Conference Session

Multidisciplinary Academic Programs

Collection

2016 ASEE Annual Conference & Exposition

Authors

Amy S. Van Epps, Purdue University, West Lafayette; Iryna Ashby, Purdue University, West Lafayette; Colin M. Gray, Purdue University, West Lafayette; Marisa Exter, Purdue University, West Lafayette

Tagged Divisions

Multidisciplinary Engineering

Paper ID #15132Supporting Student Attainment and Management of Competencies in a Trans-disciplinary Degree ProgramProf. Amy S. Van Epps, Purdue University, West Lafayette Amy S. Van Epps is an associate professor of Library Science and Engineering Librarian at Purdue Uni- versity. She has extensive experience providing instruction for engineering and technology students, including Purdue’s first-year engineering program. Her research interests include finding effective meth- ods for integrating information literacy knowledge into the undergraduate engineering curriculum. Prof. Van Epps has a BA in engineering science from

Conference Session

Multidisciplinary Efforts in Upper-level Courses

Collection

2016 ASEE Annual Conference & Exposition

Authors

Timothy R McJunkin, Idaho National Laboratory; Craig G Rieger, Idaho National Laboratory; Aunshul Rege, Temple University; Saroj K Biswas, Temple University; Michael Haney, University of Idaho; Michael John Santora, University of Idaho; Brian K. Johnson, University of Idaho, Moscow; Ronald Laurids Boring; D. Subbaram Naidu P.E., University of Minnesota Duluth; John F. Gardner, Boise State University

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

based on multiagent framework with applications to the power grid, and the integration of an intelligent virtual laboratory environment in curriculum. He is an associate editor of Dynamics of Continuous, Discrete and Impulsive Systems: Series B, and is a member of IEEE, ASEE, and Sigma Xi.Dr. Michael Haney, University of IdahoDr. Michael John Santora, University of Idaho Dr. MIchael Santora is a Clinical Assistant Professor at University of Idaho since Fall of 2013. He has worked in industry as a R&D Controls Engineer creating OEM machinary. He specializes in controls, embedded systems and automation.Dr. Brian K. Johnson, University of Idaho, Moscow Brian K. Johnson received his Ph.D. in electrical engineering

Conference Session

Multidisciplinary Outreach and Early Transdisciplinary Courses

Collection

2016 ASEE Annual Conference & Exposition

Authors

Paula Ann Monaco, Texas Tech University; Aimee Cloutier, Texas Tech University; Guo Zheng Yew, Texas Tech University; Maeghan Marie Brundrett, Texas Tech University; Dylan Christenson, Texas Tech University; Audra N. Morse, Texas Tech University

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

education.12 In literature, themost popular way of integrating real-world problem solving, especially in multidisciplinaryteams, seems to be through capstone design courses. As of 2005, roughly 35% of undergraduatecapstone design projects were conducted in multidisciplinary teams of students (an increase from21% in 1994).6 Evidence has shown, both qualitatively and quantitatively, that students benefitgreatly from working in multidisciplinary settings. Survey results show that engineeringprofessionals associate interdisciplinary thinking with creativity in their peers and ratemultidisciplinary work as very important in preparation for industry.7 Similarly, students whoparticipated in a multidisciplinary capstone course identified functioning in a

Conference Session

Multidisciplinary Academic Programs

Collection

2016 ASEE Annual Conference & Exposition

Authors

Kylie Goodell King, University of Maryland, College Park; Jessica Macklin, University of Maryland, College Park; Amanda Yard, University of Maryland, College Park

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

. Prior to joining QUEST, Jessica was the Graduate Assistant in Columbia University’s Office of Student Engagement.Ms. Amanda Yard, University of Maryland, College Park Amanda Yard is a graduating senior from the University of Maryland, Robert H. Smith School of Busi- ness. She is receiving a major in Supply Chain Management and a minor in Spanish Language and Cultures. She will be working for PepsiCo as an Integrated Supply Chain Associate in Schaumburg, IL. Amanda has been a member of the QUEST Honors Program since Spring 2013 where she has served as a mentor, as well as on the capstone project scoping team. c American Society for Engineering Education, 2016 Impact of

Conference Session

Multidisciplinary Efforts in Upper-level Courses

Collection

2016 ASEE Annual Conference & Exposition

Authors

Aurenice Menezes Oliveira, Michigan Technological University

Tagged Divisions

Multidisciplinary Engineering

estimation andlevel of difficulty of the experiments for both EE and ME students. The instructor selectedmultidisciplinary teams for each lab experiments. In addition to the multidisciplinary nature ofthe teams, the instructor also rotated partners from one experiment to another. The laboratoryexperiments were based on Seeed Studio CAN Shield,6 Arduino Mega board 2560,7 sensors andactuators. The boards programming was done via Arduino’s Integrated DevelopmentEnvironment (IDE), which is a free software.8 The IDE is a text editor like program that allowsone to write computer code for an Arduino board. The IDE has a serial monitor screen, showingthe serial port activity. Students of both majors who were not familiar with the Arduino programhad access

Conference Session

Multidisciplinary Capstone Courses

Collection

2016 ASEE Annual Conference & Exposition

Authors

Marissa H. Forbes, University of Colorado Boulder; Jacquelyn F. Sullivan, University of Colorado, Boulder; Beth A Myers, University of Colorado Boulder; Derek T Reamon Ph.D., University of Colorado, Boulder

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

, thus far, only three students have transferred into e+ from outside of theengineering college. Prerequisite “gatekeeper” courses most efficiently taken early in the collegeexperience (such as three semesters of calculus and differential equations) could be keepingpotentially interested non-engineering students away. It is hoped that, over time, the curricularflexibility and free electives inherent in the e+ curriculum make the program the engineeringcollege’s most navigable in-migration destination—and thus an increasingly important strategyto broaden participation in engineering by young adults interested in divergent, non-traditionalfutures in non-governmental organizations (NGOs), politics, finances, etc., built upon the solidtechnological

Conference Session

Multidisciplinary Teamwork

Collection

2016 ASEE Annual Conference & Exposition

Authors

Ada Hurst, University of Waterloo; Erin Jobidon, University of Waterloo; Andrea Prier, University of Waterloo; Taghi Khaniyev, University of Waterloo; Christopher Rennick, University of Waterloo; Rania Al-Hammoud P.Eng., University of Waterloo; Carol Hulls P.Eng., University of Waterloo; Jason Andrew Grove, The University of Waterloo; Samar Mohamed, University of Waterloo; Stephanie Joan Johnson M.Ed, University of Waterloo; Sanjeev Bedi P.Eng., University of Waterloo

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

includes a series of five courses8.1.2 Description of workshop seriesAt the University of Waterloo, students have limited opportunities for acquiring formal trainingin working and communicating in teams. As part of the curriculum, students participate in aminimum of five four-month co-operative (co-op) work terms in industry. While on co-op,students may choose to take an elective professional development course on teamwork; however,we have found that actual student enrollment in this course has been very limited. Duringacademic terms, students have the option of enrolling in a student leadership program15 (thatencompasses teamwork skills), but, again, only a small portion of engineering students choose todo so. For a majority of students, a

Conference Session

Promoting Multidisciplinary Efforts

Collection

2016 ASEE Annual Conference & Exposition

Authors

Harold R Underwood, Messiah College

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

suggested by a noted entrepreneur and author.6By 2010/11, developments by engineering students in the engineering project curriculum had ledto WERCware 2.0. This version consisted of an audio headset on which a stabilized camera wasalso mounted, both connected to a portable, pocket-sized FitPC. Previously separate client-sideelements were now integrated, allowing the use of Wi-Fi from the FitPC as the wireless link, tosupport a Skype connection in both directions between client and coach. During these years, thefaculty team was expanded to include a business faculty and another engineering faculty withprior experience managing larger budgets. Two attempts were made by the expanded team tosecure a Federal grant through the Institute of Educational

Conference Session

Multidisciplinary Capstone Courses

Collection

2016 ASEE Annual Conference & Exposition

Authors

Jacqulyn Baughman, Iowa State University; Gretchen A. Mosher, Iowa State University; Ann M Gansemer-Topf, Iowa State University ; Tejas Dhadphale Ph.D., Iowa State University

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

, 19Engineering graduates are expected to work in team-based projects.30, 31 Multidisciplinarycapstone courses provide a unique opportunity for students to work with their peers from otherdisciplines, mirroring the experiences they will confront in the workplace.32Definitions in the literature exist for terms such as multidisciplinary, cross-disciplinary,transdisciplinary, and interdisciplinary; 21, 3 Lattuca, Knight, and Bergom34 define“Multidisciplinary” as an effort to bring together the tools, viewpoints and understandings oftwo or more disciplines to explain or solve a problem while separating the thoughts of eachdiscipline. This differs from an interdisciplinary approach, which integrates knowledge frommultiple disciplines, with the goal of

Conference Session

Multidisciplinary Capstone Courses

Collection

2016 ASEE Annual Conference & Exposition

Authors

Tyler Susko, University of California, Santa Barbara; Ilan Ben-Yaacov, University of California, Santa Barbara; Tanya Das, University of California, Santa Barbara; Lubella Lenaburg, University of California, Santa Barbara; Francesco Bullo, University of California, Santa Barbara

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

respective departmental capstone course. Communication andscheduling between the teams were the biggest challenges in this model. In an effort to improvemultidisciplinary design, faculty from 3 engineering departments at UCSB met over the courseof an academic quarter to discuss a more integrated multidisciplinary capstone design programfor seniors. One complicating factor was departmental pressure to maintain the discipline-specific integrity of the engineering experience throughout the student body. Anothercomplicating factor included the disparity between course units and timelines created by eachdiscipline. In response to these challenges, we have created a supplementary multidisciplinarycapstone course (SMCC) to be coupled to the existing