Conference Session

SE Capstone Design Projects, Part II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Catherine Skokan, Colorado School of Mines

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

suchas design and construction of a vehicle or robot quickly see the application of lecture topics toprojects. Although the topics such as Quality Function Deployment and Failure Modes andEffect Analysis have broader applications, many students working on paper designs orhumanitarian projects had difficulty relating the importance of the topic to their project. Theadded communication time that a hybrid class can offer will aid the students in making theseconnections.Background on the Senior Design CoursesThe Multidisciplinary Capstone Design Program in the Engineering Division encompasses atwo-semester course sequence. Students from Civil, Environmental, Electrical, and MechanicalEngineering specialties from the CSM Division of Engineering

Conference Session

SE Capstone Design Projects, Part II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Colin J. Neill, Pennsylvania State University, Great Valley; Joanna F. DeFranco, Pennsylvania State University

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

, Ph.D. is an Assistant Professor of Software Engineering in the School of Graduate and Professional Studies at The Pennsylvania State University. Prior to entering academia she worked in industry and government as a software and electronics engineer. Her research interests include problem solving in software and systems design, team learning, and project management. Page 22.838.1 c American Society for Engineering Education, 2011 Improving Team Learning in Systems DesignAbstractA detailed statistical experiment to study the effect of the cognitive collaborative model (CCM

Conference Session

SE Capstone Design Projects, Part I

Collection

2011 ASEE Annual Conference & Exposition

Authors

Elisabeth W. McGrath, Stevens Institute of Technology; Susan Lowes, Institute for Learning Technologies, Teachers College/Columbia University; Chris Jurado, Stevens Institute of Technology; Alice F. Squires, Stevens Institute of Technology

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

activities such as collection and analysis of data and publications as part of the National Science Foundation’s Science Partnerships Program as well as in the implementation of capstone projects at the Center for Innovation in Engineering and Science Educa- tion (CIESE). Prior to joining CIESE he was a practicing chemical engineer on water treatments, envi- ronmental management systems and quality assurance. Chris received a BE in in Chemical Engineering from University of Guayaquil, an Environmental Technology Certificate from the Swedish International Development Agency, and a ME in Engineering Management from Stevens Institute of Technology. He’s currently pursuing a PhD in Financial Engineering at Stevens.Alice F

Conference Session

Capstone and Design Projects in Engineering Technology

Collection

2012 ASEE Annual Conference & Exposition

Authors

Carmine C. Balascio, University of Delaware; Beth (Becky) Kano Kinney, University of Delaware

Tagged Divisions

Engineering Technology

individuals for whom they were written.The system was piloted during the fall semester of 2011 in a variety of courses ranging fromphilosophy to math and science to engineering and engineering technology. Two surveys weredeveloped, one for students and the other for faculty, to examine the effectiveness of the systemin meeting the goals of the project. The student response rate was about 15% (56 out of 368)while faculty response rate was 70% (7 out of 10).Overall, a majority of the students and faculty found the system to be beneficial. For themajority of faculty, the system saved time over previous methods of peer evaluation they hadused. This paper examines the features of the system in detail, discusses the student and facultysurvey results, looks

Conference Session

SE Capstone Design Projects, Part II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Radu F. Babiceanu, University of Arkansas, Little Rock; Daniel Rucker, University of Arkansas, Little Rock; Hussain M Al-Rizzo, University of Arkansas, Little Rock; Seshadri Mohan, University of Arkansas, Little Rock

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

Electronics and Telecommunications from theUnive Page 22.613.2 c American Society for Engineering Education, 2011 Enhanced Airport Management Information System for Small and Medium- Sized Airports: A Systems Engineering Capstone Design ExperienceAbstractThis paper presents the capstone design course educational process in place within the SystemsEngineering Department at the University of Arkansas at Little Rock, emphasized through thework of a group of students that were enrolled in the capstone design sequence during the 2006-2007 academic year. The process includes preparation for the capstone design project

Conference Session

Capstone/Design Projects: Electr-Mech ET

Collection

2005 Annual Conference

Authors

Michael E. Hay; Recayi Pecen

create a stable energy future for the state of Iowa. Local industries suchas Deere and Company, WBM Marine of Waterloo, Square-D Inc, and Rockwell-Collins Inc.also support the project.This paper describes detailed design and construction of a solar-electric powered boat. Thisincludes sub-systems such as; a fiberglass hull, an electromechanical drive system, pulse-widthmodulated (PWM) based speed control, and custom made photovoltaic cell modules usingcommercially available cells. The project has been an excellent asset to the capstone seniordesign class offered for the EIET and Manufacturing Technology majors at UNI. Studentsinvolved in the project have gained knowledge and skills in electrical and mechanical areas.They also improved their

Conference Session

Capstone/Design Projects: Electr-Mech ET

Collection

2005 Annual Conference

Authors

Andrew Vavreck; Rebecca Strzelec

for Engineering Educationcampus is one of four campuses of Penn State to offer a BS in EMET, and at Altoona, theprogram emphasizes manufacturing and automation.1 The students gain skills in a wide varietyof technologies and have available state-of-the-art laboratories, including CAD, controls, andautomation. A machine shop and projects area are also available. The projects area is used forannual student design competitions, including SAE Mini Baja and the ASME Student DesignContest and for student projects as part of the EMET capstone design course.One of the most useful tools students have to help with the development of their capstone designprojects or student design competitions is the fused deposition modeling (FDM) system. TheFDM allows

Conference Session

Capstone/Design Projects: Information/Computer ET

Collection

2005 Annual Conference

Authors

David Loker

students with some text instructions already pre-coded to generate the appropriate HEX codes. This would help the students have more time tofocus on applications.An additional recommendation for this project would be to replace the remote computer with amicrocontroller that has a serial port for interfacing to a Bluetooth device. Softwaredevelopment for the microcontroller could be achieved by using assembly language or a higher-level programming language. However, it may also be necessary to provide pre-codedinstructions to help reduce the level of difficulty and time needed for programming themicrocontroller.Finally, this project could also be expanded into a capstone design project by utilizing the aboverecommendations and many Bluetooth

Conference Session

Capstone/Design Projects: Electr-Mech ET

Collection

2005 Annual Conference

Authors

Scott Danielson; Jerry Gintz

automationinto their capstone projects. Capstone, a senior year project course, is intended to integrateelements of the student’s academic program into a single comprehensive project. The project,typically solicited from local industry, is an actual manufacturing problem requiring aninnovative solution, allowing the students an opportunity to demonstrate their understanding ofmanufacturing competencies. Introduction to Automation, MET 451, provides the students theskills necessary to evaluate and, when practical, integrate automated solutions when resolvingthe complexities of their Capstone project.MET 451 Laboratory WorkstationThe laboratory component of MET 451, Introduction to Automation, utilizes specially designedworkstations to provide students a

Conference Session

Capstone Courses and Project Based-Learning

Collection

2014 ASEE Annual Conference & Exposition

Authors

Vincent Wilczynski, Yale University; Corey S. O'Hern, Yale University; Eric R. Dufresne, Yale University

Tagged Divisions

Mechanical Engineering

ProgramAbstractDesign and Innovation Centers are becoming popular creativity hubs on many engineeringcampuses. While a number of centers, such as Stanford University’s d-school and NorthwesternUniversity’s Segal Design Institute have existed for a long time, a significant number of otherengineering centers have recently been established and even more are in the planning phase.These centers generally offer a location, infrastructure, and support for the university communityto learn and work in a hands-on project-centered environment. Though each design center has aunique purpose relative to its home institution, the centers have all had a significant impactinstilling design experiences into the campus culture. This paper examines the impact of thearrival of an

Conference Session

Capstone and Senior Design Projects Session

Collection

2013 ASEE Annual Conference & Exposition

Authors

Antonio Francisco Mondragon, Rochester Institute of Technology (CAST); Adriana Becker-Gomez, Rochester Institute of Technology (KGCOE); Carmen A Bovalino III, Rochester Institute of Technology, Student; Michael B Jones, RIT; Derrick Brazil, Rochester Institute of Technology; Michael R Caldwell, Graduate Student Rochester Institute of Technology; sajin george, RIT

Tagged Divisions

Engineering Technology

Engineer and Project Leader for the Automotive Industry in the area of Embedded and Software Systems. She also worked as an Assistant to the Dean of the Graduate Studies of Engineering Division at Universidad Nacional Autonoma de Mexico, Mexico in 1995 .In 2000 she was a grader at Texas A&M University. In 2001 she interned in the Preamp R&D SP Group at Texas Instruments, Dallas, TX, and at Intersil Corporation, Dallas / Milpitas, as a Design Engineer, in the High Performance Analog Group in 2005. She worked at Intersil as a Senior Design Engineer in the Analog and Mixed Signal-Data Converters Group. In 2009 she joined Rochester Institute of Technology in Rochester, New York as an adjunct professor in ECT-ET

Conference Session

College Industry Partnerships Division (CIP) Technical Session 2

Collection

2023 ASEE Annual Conference & Exposition

Authors

Edward Latorre, University of Florida; Catia Silva, University of Florida; Elizabeth Louise Meier, University of Florida

Tagged Divisions

College Industry Partnerships Division (CIP)

Paper ID #39685Evaluating Student Project Ranking in an Industry-SponsoredMultidisciplinary Capstone Program to Improve Student Placement andProject ProposalsEdward Latorre, University of Florida Dr. Edward Latorre-Navarro is the Director of the Integrated Product and Process Design (IPPD) program within the Department of Engineering Education at the University of Florida. He joined UF from his pre- vious role as Associate Professor of Computer Science at the University of Puerto Rico at Arecibo. As an educator, he is interested in improving the academic experience based on student engagement with educa- tional goals

Collection

ASEE Zone 1 Conference - Spring 2023

Authors

Sean Knecht, Penn State University

Tagged Topics

Diversity

Paper ID #40546Work in Progress: Impact of individualized personal development projectsin a Multidisciplinary Capstone course on project success and studentoutcomesProf. Sean Knecht, Penn State University Sean Knecht is an Associate Research Professor in the School of Engineering Design and Innovation (SEDI) at Penn State. He is the director of the Cross-disciplinary Laboratory for Integrated Plasma Sci- ence and Engineering (CLIPSE) which investigates physical-plasma for a wide variety of applications including medicine, sustainability, agriculture, and nuclear fusion. ©American Society for

Conference Session

Design in Engineering Education Division: Student Empathy & Human-centered Design

Collection

2019 ASEE Annual Conference & Exposition

Authors

Devanshi Shah, Florida Institute of Technology; Elisabeth Kames, Florida Institute of Technology ; McKenzie Carol Clark, Florida Institute of Technology; Beshoy Morkos, Florida Institute of Technology

Tagged Topics

Diversity

Tagged Divisions

Design in Engineering Education

Paper ID #27601Examining the Differences in Student Motivation for Industry Projects andNon-Industry Projects in Senior Capstone DesignDevanshi Shah, Florida Institute of Technology I am a graduate student pursuing M.S. in Mechanical Engineering at Florida Institute of Technology with specialization in Structures, Solid Mechanics and Materials. I graduated with B.E. in Mechanical Engineering in India in May 2016. My research is focused on Student’s Motivation in Engineering under the advisement of Dr. Beshoy Morkos.Elisabeth Kames, Florida Institute of Technology Elisabeth Kames is a graduate student working on her Ph.D. in

Conference Session

Cooperative and Project-based Global Learning

Collection

2018 ASEE Annual Conference & Exposition

Authors

Karim Altaii, James Madison University; Shannon N. Conley, James Madison University ; Samy El-Tawab, James Madison University

Tagged Topics

Diversity

Tagged Divisions

International

”FRIEND”: A Cyber-Physical System for Traffic Flow Related Information aggrEgatioN and Dissemination. In 2009, he was awarded a prize for Excellence in Scholarship at The College of William and Mary’s 8th An- nual Graduate Research Symposium. He has more than 20 publications including journal/conference papers, book chapters, and posters. He also serves as a reviewer in several journals and conferences. http://educ.jmu.edu/˜eltawass/ c American Society for Engineering Education, 2018 A Methodology and Experience of Facilitating International Capstone Projects for Multidisciplinary Fields: Costa Rica Internet of Things (IoT) Case StudyIntroductionThis paper

Conference Session

Capstone Design

Collection

2013 ASEE Annual Conference & Exposition

Authors

E James Nelson, Brigham Young University; Tatevik Christensen; Fernando S Fonseca, Brigham Young University; A. Woodruff Miller, Brigham Young University

Tagged Divisions

Design in Engineering Education

capstone design projects are playing anincreasingly important role in meeting the educational objectives of Civil & EnvironmentalEngineering degrees. In recent years both the American Society of Civil Engineers (ASCE) andthe Accreditation Board for Engineering and Technology (ABET) have placed a focus on thedevelopment of management, leadership and general business skills. Capstone programs offer anideal environment that provides a synthesis of the fundamental technical engineering skills indeveloping a culminating design while creating an opportunity to focus on all of the professionalpractice skills necessary for students to become future leaders in their field.Recognizing the opportunity to enhance development of these complimentary

Conference Session

Capstone Design

Collection

2003 Annual Conference

Authors

Brian Thompson; Craig Gunn; Craig Somerton

Session 2425 The Role of the Faculty Advisor in the Capstone Design Experience: The Importance of Technical Expertise Craig W. Somerton, Brian S. Thompson, and Craig Gunn Department of Mechanical Engineering, Michigan State UniversityIntroductionThe capstone design experience in the mechanical engineering program at Michigan StateUniversity is achieved through the Mechanical Engineering Design Projects course: ME 481.This course utilizes industrially sponsored design projects for which the company makes both afinancial investment ($3500) and a personnel investment (a staff engineer is

Conference Session

Capstone Design

Collection

2003 Annual Conference

Authors

Thomas Grimm

Session 2425 A Just-In-Time Approach to Teaching Senior Design By: Thomas R. Grimm Associate Professor of Mechanical Engineering Michigan Technological UniversityAbstractThe subject of this paper is the approach used to teach the senior design project course inthe Mechanical Engineering Department at Michigan Technological University. Theprimary objective in the development of the required two semester senior designsequence was to insure a positive experience in mechanical engineering design whileeliminating the procrastination that can be prevalent in long term

Conference Session

Capstone Design

Collection

2013 ASEE Annual Conference & Exposition

Authors

Olga Pierrakos, James Madison University; Elise M. Barrella, James Madison University; Robert L. Nagel, James Madison University; Jacquelyn Kay Nagel, James Madison University; Justin J Henriques, James Madison University; Daniel Devon Imholte

Tagged Divisions

Design in Engineering Education

this is achieved is the team-based capstone experience, which starts in the fallsemester of junior year and ends in the spring semester of senior year. Our pedagogical approachin the capstone experience is for students to take ownership of their projects and their learning.The design instructors and faculty advisor(s) support and facilitate mastery learning throughdirected and non-directed, group-based and independent, simple and complex, structured andunstructured, project tasks that incrementally expose and reiterate the design process. In thispaper, we not only describe the conceptualization and implementation of this two-year capstoneexperience, but also present outcomes assessment data of student learning during this

Conference Session

Capstone Design

Collection

2014 ASEE Annual Conference & Exposition

Authors

Bridget M. Smyser, Northeastern University; Beverly Kris Jaeger, Northeastern University

Tagged Divisions

Design in Engineering Education

building prototypes to solve real-worldproblems sponsored by industry and research faculty. Industrial Engineers (IE), by the nature oftheir discipline, often work on problems that do not involve a physical object. Instead, thedeliverables may be simulations, facility layouts, procedural modifications, databases, or otherprocesses or products less tangible than a physical prototype. Previous work by one of theauthors presented a validated scheme for assessing Mechanical Engineering (ME) solutionsbased on examination of the Executive Summary document written three weeks before the end ofthe Capstone course. For the present work, this same evaluation scheme was applied to theIndustrial Engineering projects presented during the past seven years. The

Conference Session

Capstone Courses

Collection

2012 ASEE Annual Conference & Exposition

Authors

Martin Edin Grimheden, Royal Institute of Technology

Tagged Divisions

Mechanical Engineering

. This is due to the emphasis onearly prototyping, quick feedback and incremental development. It still might not be thefavorable method for use in large scale industrial development projects where formalprocedures might still be preferred, but the pedagogical advantages in mechatronics educationare valuable. Incremental development and rapid prototyping for example gives manyopportunities to reflect and improve. The Scrum focus on self-organizing teams also providesa platform to practice project organization, by empowering students to take responsibility forthe product development process.Among the results of this study, it is shown that it is possible and favorable to integrate Scrumin a mechatronics capstone course and that this can enhance

Conference Session

Capstone Design

Collection

2005 Annual Conference

Authors

John Estell; Juliet Hurtig

. Page 10.1360.3 Proceedings of the 2005 American Society for Engineering Education Annual Conference & Exposition Copyright © 2005, American Society for Engineering EducationIV. Fall Quarter: Senior Design SeminarThe senior capstone project is not the student’s first exposure to formal design work; however, itdoes challenge students to draw from all of their previous coursework and complete a design thatis large enough in scope to require a team effort and a six-month time period. To begin thiscapstone process, there is a two-credit hour fall quarter course, ECCS 404: Senior DesignSeminar, which meets once a week for a 50-minute lecture. The two key course objectives are: • Participate on a team design

Conference Session

Capstone Design

Collection

2002 Annual Conference

Authors

John Paul Giolma; Kevin Nickels

Session 2425 Herding cats: a case study of a capstone design course J. Paul Giolma and Kevin M. Nickels Department of Engineering Science Trinity UniversityAbstractThe eight-semester design sequence in Engineering Science at Trinity University contains threemini-capstone design experiences (one mechanical, one chemical, and one electrical) and onecapstone design project in the senior year. Senior design is so unlike the well-defined designprojects encountered thus far in the curriculum, even the mini-capstone design projectsencountered

Conference Session

Capstone Design

Collection

2004 Annual Conference

Authors

Kathleen Kramer

Session 2225 Achieving EC2000 Outcomes in the Capstone Design Via Structured Industry Advisory Board Involvement Kathleen A. Kramer University of San DiegoAbstractThe capstone design sequence was selected as a focus for the structure of the activities of anindustry advisory board. The focus on the capstone sequence provided both a framework forongoing industry involvement and an improvement in student project results. Activities includedsupplying input on changes in the approach to the design process within the capstone sequence,such as team

Conference Session

Capstone Design

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Jamie Gravell, University of Texas at Dallas; Robert Hart P.E., University of Texas at Dallas; Todd W. Polk, University of Texas at Dallas

Tagged Divisions

Design in Engineering Education

research interests are in multiscale modeling of crystalline material defects such as the interaction of dislocations and grain boundaries with application to enhanced material design for thin film semiconductor devices.Dr. Robert Hart P.E., University of Texas at Dallas Robert Hart is an Associate Professor of Practice in the Mechanical Engineering Department at the Uni- versity of Texas at Dallas (UTD). He teaches the capstone design course sequence and serves as a Director for the UTDesign program, which facilitates corporate sponsorship of capstone projects and promotes re- source sharing and cross-disciplinary collaboration among engineering departments. His professional interests are in the areas of engineering

Conference Session

Capstone Design

Collection

2015 ASEE Annual Conference & Exposition

Authors

Cory A Cooper, United States Air Force Academy; Michael Lawrence Anderson P.E., United States Air Force Academy, Department of Engineering Mechanics; Chad Bruce; Sarah Galyon Dorman; Daniel D. Jensen, U.S. Air Force Academy; Kevin Otto; Kristin L. Wood, Singapore University of Technology and Design (SUTD)

Tagged Divisions

Design in Engineering Education

Paper ID #12099Mini-Design Projects in Capstone: Initial Design Experiences to EnhanceStudents’ Implementation of Design MethodologyMajor Cory A Cooper, United States Air Force Academy Major Cory Cooper is currently an Assistant Professor of Systems Engineering and Capstone Coordinator at the US Air Force Academy (USAFA) in Colorado Springs, Colorado. He holds a PhD an MSc in Systems Engineering from the Technical University of Delft and the Air Force Institute of Technology respectively. He has held various developmental engineering and program management positions in the US Air Force, to include Deputy Director for

Conference Session

Capstone Design

Collection

2014 ASEE Annual Conference & Exposition

Authors

Bob Rhoads, The Ohio State University; Clifford A Whitfield, Ohio State University; Jacob T Allenstein, The Ohio State University; Peter Rogers, The Ohio State University

Tagged Divisions

Design in Engineering Education

CapstoneDesign course where teams work on company-sponsored projects. Teams include bothengineering and non-engineering students and projects include product, process, and systemdesign opportunities. This active learning opportunity allows students to apply their academic,professional, and practical skills to real-world problem solving. This two-semester programbegins with a seven-week pre-capstone course. During this time the capstone coordinators formteams based on student preference and disciplines appropriate to the project scope. Thecoordinators assign a faculty advisor and identify an industry liaison to provide leadership andcoaching throughout the project.The program enhances critical thinking skills by providing open-ended projects. By

Conference Session

Capstone Design

Collection

2003 Annual Conference

Authors

Jeff Will; Doug Tougaw

courses should becombined together and the teams integrated across disciplines.During the summer of 2000, a committee composed of faculty from each department metfor two weeks to discuss the desired features, format, and policies of the new coursesequence. Since the ECE department previously had a three-semester capstone designsequence and the ME department had a two-semester sequence, some substantialcompromises had to be made. At the same time, the decision was made to increase thelevel of structure in the course and to provide a high level of support for the studentteams. This support took the form of dedicated laboratory space, increased availability offaculty resources for advising and consulting with teams, and increased project

Conference Session

Capstone Design

Collection

2004 Annual Conference

Authors

Steven Beyerlein; Denny Davis; Yi Min Huang; Larry McKenzie; Michael Trevisan

Engineering EducationOne aspect of design education now receiving attention is the capstone design experience. Todd etal. in 1995 surveyed capstone engineering courses throughout North America to understand currentpractices in capstone education4. The study found that many engineering programs were usingsenior design/capstone-type courses to help prepare students for engineering practice, and asignificant number of institutions engaged industrial clients to sponsor capstone projects. Inaddition, a number of schools were using undergraduate team based projects, with a few using inter-departmental undergraduate teams from different disciplines. They concluded that this facultyintensive investment was valuable in producing competent engineering

Conference Session

Capstone Design

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Nathan M. Kathir P.E., George Mason University; Erik Knudsen, George Mason University

Tagged Divisions

Mechanical Engineering

creative ways to solve real-world engineering problems and ensures students get experience in planning, design, research, manufacturing and project management before they graduate. Dr. Kathir is a member of ASCE’s Committee on Accreditation.Dr. Erik Knudsen, George Mason University American c Society for Engineering Education, 2021 Capstone Design - Unexpected Challenges and Opportunities due to the Covid-19 PandemicAbstractDue to the Covid-19 pandemic George Mason University (Mason), similar to many institutions,had to suddenly switch to online delivery of all courses in March 2020. As the director of seniorprojects (first