Conference Session

FPD II: Hands-on Curriculum in the First Year

Collection

2012 ASEE Annual Conference & Exposition

Authors

Stephen W. McKnight, Northeastern University; Michael E. Pelletier, Northern Essex Community College; Paula G. Leventman, Northeastern University

Tagged Divisions

First-Year Programs

-time modules that NortheasternUniversity (NU) has introduced in their first-year engineering curriculum using a “High-TechTools & Toys Laboratory” (HTT&TL). At NU, the HTT&TL is used to teach MATLAB andC++ to first-year engineering students through a set of structured exercises leading the studentsto image a shape concealed in opaque gelatin using 1MHz ultrasound (MATLAB) and to use astepper motor mechanism to color-sort dyed Ping-Pong balls imaged by a video-cam (C++). The Page 25.46.3community college faculty members were participants in an NSF-supported STEP grant, andwere supported through ALERT stipends to attend the

Conference Session

Curricular Innovations in College-Industry Partnerships

Collection

2012 ASEE Annual Conference & Exposition

Authors

Karen T. Marosi, Bucknell University; Barbra Steinhurst, Bucknell University

Tagged Divisions

College Industry Partnerships

. toestablish the Engineering Success Alliance (ESA). The ESA focuses on first-year engineeringstudents from various inner-city recruiting programs and students from under-represented groupsin engineering whose admissions materials suggest they might need extra support during the firsttwo critical years in an engineering curriculum. Students are invited to participate in the ESAprior to their arrival on campus. Those who accept the invitation are then offered a variety ofsupport activities targeted primarily at building mathematics skills, study skills, and academiccapital. It is expected that these activities will assist in the retention of these students inengineering during the critical first two years of intense preparation for their engineering

Conference Session

Multidisciplinary Engineering Potpourri

Collection

2012 ASEE Annual Conference & Exposition

Authors

Wayne Weaver, Michigan Technological University; Jeremy John Worm P.E., Michigan Technological University; Jeffrey D. Naber, Michigan Technological University; Leonard J. Bohmann, Michigan Technological University; John E. Beard, Michigan Technological University; Carl L. Anderson, Michigan Technological University; Bo Chen, Michigan Technological University; Jason M. Keith, Mississippi State University

Tagged Divisions

Multidisciplinary Engineering

automotive industry is in a transformation towards powertrain electrification, requiringautomotive engineers to develop and integrate technologies from multiple disciplines. We havedeveloped a new interdisciplinary master of engineering degree program and graduate andundergraduate certificates in Advanced Hybrid Electric Drive Vehicle Engineering. The vehiclelevel aspects of the program include vehicle requirements, integration of propulsiontechnologies, safety, diagnostics, control and calibration. We and our industrial partners see theseas critical limiting factors in the development and production of advanced electric transportation.Additionally, the effort leverages the existing distance learning program in electric power. Theresult is an

Conference Session

Emerging Information Technologies

Collection

2012 ASEE Annual Conference & Exposition

Authors

Robert E. Efimba P.E., Howard University; Tori Rhoulac Smith, Howard University

Tagged Divisions

Computing & Information Technology

in engineering disciplines, she shifted her career focus and now serves as an instructor and undergraduate education coordinator for the department. Her primary focus is now undergraduate teaching, advising, curriculum, and evaluation. Rhoulac Smith earned master’s of science and doctorate of philosophy degrees in civil engineering from North Carolina State University in Raleigh, N.C., in 2000 and 2003, respectively. She also earned a bachelor’s of science degree in civil engineering from Howard University in 1998. Page 25.1352.1 c American Society for Engineering Education, 2012

Conference Session

Curricular Innovations in College-Industry Partnerships

Collection

2012 ASEE Annual Conference & Exposition

Authors

Thomas F. Wolff P.E., Michigan State University; Carmellia Davis-King, Michigan State University; Timothy J. Hinds, Michigan State University; Daina Briedis, Michigan State University

Tagged Divisions

College Industry Partnerships

in the areas of integration of computation in engineering curricula and in developing comprehensive strategies to retain early engineering students. She is active nationally and internationally in engineering accreditation and is a Fellow of ABET and of the AIChE. Page 25.645.1 c American Society for Engineering Education, 2012 Fostering Industry Engagement in the Co-Curricular Aspects of an Engineering Living-Learning ProgramIntroductionThe CoRe (Cornerstone Engineering / Residential Experience) living-learning program atMichigan State University (MSU) entails

Conference Session

Laboratory Innovations

Collection

2012 ASEE Annual Conference & Exposition

Authors

Claire Yu Yan, University of British Columbia; Carolyn Labun, University of British Columbia

Tagged Divisions

Mechanical Engineering

Engineering Education, 2012 Improving Student Engagement - An Approach Used in Kinematics and Dynamics of MachineryAbstractInstructors frequently ask themselves “What are the best ways for an instructor to support studentlearning? How can we assist students in engaging in deep learning? How can we help thembridge the divide between theory and practice?This paper discusses efforts to address these issues in a course on Kinematics and Dynamics ofMachinery. Kinematics and Dynamics of Machinery is a core course in the mechanicalengineering curriculum. One of the challenges in this course is to make students fully appreciatemechanism design by integrating the principles of kinematics and dynamics in real world designpractice. To

Conference Session

NSF Grantees' Poster Session

Collection

2012 ASEE Annual Conference & Exposition

Authors

Ashland O. Brown P.E., University of the Pacific; Daniel D. Jensen, U.S. Air Force Academy; Joseph J. Rencis P.E., Tennessee Technological University; Kristin L. Wood, Singapore University of Technology and Design; Kyle A. Watson, University of the Pacific; Chuan-Chiang Chen, California State Polytechnic University, Pomona; Vladimir A. Labay, Gonzaga University; Ismail I. Orabi, University of New Haven; Firas Akasheh, Tuskegee University; John J. Wood, U.S. Air Force Academy; Rachelle Kisst Hackett, University of the Pacific; Kathy Schmidt Jackson, Pennsylvania State University; Jiancheng Liu, University of the Pacific; Paul Henry Schimpf; Alexis Pham, University of the Pacific; Krystian Zimowski, University of Texas, Austin; Kristin Taylor, University of the Pacific

Tagged Topics

NSF Grantees Poster Session

University of Manitoba. After graduating with a Ph.D. from the University of Victoria in 1995, he remained in Victoria, British Columbia, Canada as a lecturer and research engineer until he accepted an Assistant Professor position in 1999 at Eastern Washington University located in Cheney, Wash., USA. In 2007, Labay was a visiting scholar at SRM University in Chennai, India. His research interests include modeling of and the development of microwave/millimeter- wave integrated circuit devices used in wireless and satellite communications.Dr. Ismail I. Orabi, University of New Haven Ismail Orabi is professor of mechanical engineering, University of New Haven. Orabi has been perform- ing research and teaching in the areas

Conference Session

Emerging Information Technologies

Collection

2012 ASEE Annual Conference & Exposition

Authors

Erin Shaw, University of Southern California; Michael Crowley, University of Southern California; Jaebong Yoo, University of Southern California; Hao Xu, University of Southern California; Jihie Kim, University of Southern California

Tagged Divisions

Computing & Information Technology

AC 2012-4126: AN INVESTIGATION OF DATA DISPLAYS FOR INTER-PRETING PARTICIPATION IN ONLINE DISCUSSION: TWO PERSPEC-TIVESErin Shaw, University of Southern California Erin Shaw is a Computer Scientist at the Information Sciences Institute at the University of Southern Cal- ifornia’s Viterbi School of Engineering. Her research focuses on modeling and assessing student knowl- edge in the areas of science and mathematics, and experimenting with new technologies for aiding as- sessment in distance learning. As a Co-principal Investigator on National Science Foundation-sponsored studies, she researches new ways to assess student collaboration in undergraduate engineering courses and new ways to motivate secondary

Conference Session

Hands-on Laboratory and Design Experiences in Environmental Engineering

Collection

2012 ASEE Annual Conference & Exposition

Authors

Andrew Ross Pfluger P.E., U.S. Military Academy; David-Michael P. Roux, U.S. Army; Michael A. Butkus, U.S. Military Academy

Tagged Divisions

Environmental Engineering

experiments. Two newly revised lessonswere devoted to the topics of IAP sources, material balances, and controls. The lessons discussed Page 25.57.3how IAP poses significant issues to human health and how it is often underemphasized incomparison to ambient air pollution. Cooper and Alley (2011) states that many people spendmore than 20 hours per day on average in an indoor setting. Since the course is the only airpollution course offered in the our curriculum, the aim of this assignment was to broaden thestudents’ knowledge of other environmental engineering focus areas while supporting theprogram’s major concepts and themes, as well as the ABET

Conference Session

First-year Programs Poster Session

Collection

2012 ASEE Annual Conference & Exposition

Authors

John Reap, Virginia Tech; Holly M. Matusovich, Virginia Tech; Rachel A. Louis, Virginia Tech

Tagged Divisions

First-Year Programs

AC 2012-4040: CHOCOLATE CHALLENGE: THE MOTIVATIONAL EF-FECTS OF OPTIONAL PROJECTS IN AN INTRODUCTORY ENGINEER-ING CLASSDr. John Reap, Virginia Tech John Reap currently serves Virginia Tech’s educational mission as an instructor in the Department of Engineering Education. He primarily teaches introductory engineering courses as part of the freshman year engineering program. Research interests include topics in sustainable design and manufacturing (SDM) life cycle assessment, design for environment, green manufacturing, renewable energy, and system efficiency (energy and material). He specializes in approaching SDM problems from the perspective of holistic biomimicry, which encompasses identification, development, and

Conference Session

Examining Problem-based Learning

Collection

2012 ASEE Annual Conference & Exposition

Authors

Daniel Z. Meyer, Illinois Institute of Technology; James Kedvesh; Joy Kubarek-Sandor, John G. Shedd Aquarium; Cheryl L. Heitzman, Illinois Institute of Technology; Sima Ala Faik, Illinois Institute of Technology; Yaozhen Pan, Illinois Institute of Technology

Tagged Divisions

K-12 & Pre-College Engineering

science education in secondary schools, including curriculum and teaching and learning of science. Page 25.359.1 c American Society for Engineering Education, 2012 Creating science and engineering practices in the K12 classroom: An initial survey of the fieldAbstractThe recently released Framework for K-12 Science Education Standards emphasizes theimportance of science and engineering practices to the K-12 classroom. This continuesthe stress on process and authentic activities that has characterized science educationreform over at least the last two decades . It also adds

Conference Session

Engineering Technology Curriculum Issues

Collection

2012 ASEE Annual Conference & Exposition

Authors

MD B. Sarder, University of Southern Mississippi; Shahdad Naghshpour, University of Southern Mississippi, Gulf Park

Tagged Divisions

Engineering Technology

of case studies, active learning techniques, and computer technologies in theclassroom, and provides previously unavailable opportunities for hands-on engineeringexperience in the Learning Factory5‖. In this curriculum, Learning Factories are physicalfacilities located on the campuses on host universities that provide students with the necessaryequipment and technology to actively learn and address complex engineering issues. In somecases, students will have access to small scale production lines to further add to the realizationexperience. ―The basic principle of the Learning Factory is integration – integration of designand manufacturing experience into the undergraduate curriculum; integration of equipment andmaterials into manufacturing

Conference Session

Educational Research and Methods Poster Session

Collection

2012 ASEE Annual Conference & Exposition

Authors

Lisa K. Davids, Embry-Riddle Aeronautical University, Daytona Beach

Tagged Divisions

Educational Research and Methods

Women Engineers as well as a Co-advisor for the all Women’s Baja SAE Team at ERAU. Her research interests involve the retention of women in engineering degree programs and effective pedagogy in undergraduate engineering curriculum. Page 25.108.1 c American Society for Engineering Education, 2012 A Study on the Effectiveness of Team-Based Oral Examinations in an Undergraduate Engineering CourseAbstractThe conventional and pervasive written exam format used in undergraduate engineering courses,while practical, may be neither the most effective

Conference Session

FPD IV: Innovative Curriculum Elements of Successful First-year Courses

Collection

2012 ASEE Annual Conference & Exposition

Authors

Gregory Warren Bucks, Ohio Northern University; William C. Oakes, Purdue University, West Lafayette

Tagged Divisions

First-Year Programs

computing and designconcepts. LabVIEW was chosen due to the familiarity of the instructors and staff, the ease withwhich it can integrate with hardware systems, as well as its availability on campus.LabVIEW is a graphical programming language in which an individual creates a program byconnecting different graphical blocks together, similar to a circuit diagram or block diagram.The programmer creates both the user interface for the program as well as the codesimultaneously. The user interface is created using the Front Panel window, on which differentobjects, such as numeric inputs and outputs, graphs, and text displays are placed to allow a userto provide inputs to and receive outputs from the program. Objects placed on the Front Panel

Conference Session

Engineering Education and Comparative Studies at Universities throughout Asia, Far East

Collection

2012 ASEE Annual Conference & Exposition

Authors

Samuel Ratnajeevan Herbert Hoole P.E., Michigan State University

Tagged Divisions

International

Wesleyan Methodist Mission’s Seminary in Jaffna (1834), is certified by theColonial Secretary Sir James Emerson Tennent in a letter dated March 23, 1848 to RufusAnderson, DD, of the American Board of Commissioners for Foreign Missions as “entitled torank with many an European University.”1 Jaffna is the cultural capital of the Tamil minority ofSri Lanka, who occupied the North and East as the dominant majority while being scattered overthe rest of Sri Lanka where the majority Sinhalese predominate (Fig. 1). The curriculum atBatticotta consisted of “In the Academical Department, Algebra, Euclid, Conic Sections, NaturalPhilosophy, Chemistry, Astronomy, Logic, Rhetoric, Mental and Moral Philosophy, Paley’sNatural Theology, Butler’s Analogy, Classical

Conference Session

BME Course and Curriculum Development

Collection

2012 ASEE Annual Conference & Exposition

Authors

Alisha L. Sarang-Sieminski, Franklin W. Olin College of Engineering; Debbie Chachra, Franklin W. Olin College of Engineering

Tagged Divisions

Biomedical

quantitative measurements in living systems; 4. The ability to use modeling techniques as a tool for integrating knowledge; 5. The ability to formulate and solve problems with medical relevance, including the design of devices, systems, and processes to improve human health.This curriculum philosophy captures an important component of bioengineering that isdemanded by industry: the ability to apply an ‘engineering mindset,’ including quantitative andanalytic tools, to biological problems. But there is also an increasing appreciation of the role ofthe so-called ‘soft skills’ in engineering, including teamwork and communication, as well as thevalue of design and problem-solving skills. For example, the National Academy of

Conference Session

Software and Web-based Learning in ECE

Collection

2012 ASEE Annual Conference & Exposition

Authors

Kevin P. Pintong, Binghamton University; Douglas H. Summerville, Binghamton University; Kyle Temkin, BInghamton University

Tagged Divisions

Electrical and Computer

verysimple once the initial course curriculum is laid out. Moodle was chosen because of itssustainability and modularity. However, the software that we chose may not scale well to largercourses.22 Our current setup can handle less than 1000 students. An issue that may be of concernis when ten large classes try to submit a quiz all at once. In our implementation, Moodle andBigBlueButton

Conference Session

Systems Engineering Curriculum and Programs

Collection

2012 ASEE Annual Conference & Exposition

Authors

Adeel Khalid, Southern Polytechnic State University

Tagged Divisions

Engineering Management, Industrial Engineering, Systems Engineering

,’ ASQ Higher Education Brief, 2(4), August 20094. Reichner, R., Bernold, L., Burniston, E., Dail, P., Felder, R., Gastineau, J., Gjertsen, M., Risley, J., ‘Case Study of the Physics Component of an Integrated Curriculum,’ Physics Education Journal, 67 (7), July 19995. Prince, M., ‘Does Active Learning Work? A Review of the Research,’ Journal of Engineering Education, 93(3), 223-231 (2004)6. Prince, M. J., Felder, R. M., ‘Inductive Teaching and Learning Methods: Definitions, Comparisons, and Research Bases,’ Journal of Engineering Education, 95(2), 123-138 (2006)7. Novak, G. M., Patterson, E. T., Gavrin, A. D., Christian, W., ‘Just in Time Teaching,’ American Journal of Physics, October 1999, Volume 67, Issue 10, pp. 9378

Conference Session

Systems Engineering Curriculum and Programs

Collection

2012 ASEE Annual Conference & Exposition

Authors

Regina Ruby Clewlow, Massachusetts Institute of Technology; Afreen Siddiqi, Massachusetts Institute of Technology; Joseph M. Sussman, Massachusetts Institute of Technology

Tagged Divisions

Engineering Management, Industrial Engineering, Systems Engineering

revise and coordinate the curriculum for ESD.00 in order to provide awell integrated learning experience to our students.Our long-term goal is to make valuable and essential additions to an engineering curriculum,including the possibility of a minor in engineering systems, for undergraduate students of a newgeneration – a generation that becomes well prepared for successfully meeting the grandchallenges of its times.References1 Vest, C.M., “Context and Challenge for Twenty-First Century Engineering Education,” SpecialGuest Editorial, Journal of Engineering Education, July 2008, pp. 235-236.2 National Academy of Sciences, National Academy of Engineering, And Institute of Medicineof The National Academies. Rising Above the Gathering Storm

Conference Session

Thinking About the Engineering Curriculum

Collection

2012 ASEE Annual Conference & Exposition

Authors

Olga Pierrakos, James Madison University; Anna Zilberberg; Christopher W. Swan, Tufts University; Angela R. Bielefeldt, University of Colorado, Boulder; Kurt Paterson P.E., Michigan Technological University; John J. Duffy, University of Massachusetts, Lowell; Sean Mcvay, James Madison Univeristy

Tagged Divisions

Educational Research and Methods

(NSF BRIGE grant), advancing problem-based learning methodologies (NSF CCLI grant), assessing student learning, and un- derstanding and integrating complex problem solving in undergraduate engineering education (NSF CA- REER grant). Her other research interests lie in cardiovascular fluid mechanics, sustainability, and K-12 engineering outreach.Anna ZilberbergDr. Christopher W. Swan, Tufts University Chris Swan is an Associate Professor of civil and environmental engineering with additional appointments in the Jonathan M. Tisch College of Citizenship and Public Service and the Center for Engineering Edu- cation and Outreach at Tufts University. He has served as Chair of Tufts CEE Department (2002-2007) and has

Conference Session

Course and Curriculum Development

Collection

2012 ASEE Annual Conference & Exposition

Authors

AJ Hamlin, Michigan Technological University; Jean-Celeste M. Kampe, Michigan Technological University; Amy E. Monte, Michigan Technological University; Brett Hamlin, Michigan Technological University; Douglas E. Oppliger, Michigan Technological University

Tagged Divisions

Multidisciplinary Engineering

AC 2012-4372: ASSESSING A UNIQUE ENGINEERING UNDERGRADU-ATE DEGREE PROGRAMDr. AJ Hamlin, Michigan Technological University AJ Hamlin is a Senior Lecturer in the Department of Engineering Fundamentals at Michigan Techno- logical University, where she teaches first-year engineering courses, including an Introduction to Spatial Visualization course. Her research interests include spatial visualization and educational methods. She is an active member in the Engineering Design Graphics Division of ASEE and is currently serving as the Associate Editor of the Engineering Design Graphics Journal.Dr. Jean-Celeste M. Kampe, Michigan Technological University Jean-Celeste M. Kampe is currently Department Chair of Engineering

Conference Session

Thinking About the Engineering Curriculum

Collection

2012 ASEE Annual Conference & Exposition

Authors

Peter H. Meckl, Purdue University; Marc H. Williams, Purdue University, West Lafayette; Carolyn Percifield, Purdue University; Monica E. Cardella, Purdue University, West Lafayette; Michael T. Harris, Purdue University, West Lafayette; Leah H. Jamieson, Purdue University, West Lafayette

Tagged Divisions

Educational Research and Methods

additional resources. In order to make the curriculum moreengaging and socially relevant, efforts should be made to tie it explicitly to national priorities,like the Grand Challenges, and to better integrate the engineering curriculum with the generaleducation component, for example through co-taught courses.Feedback from Participants:In an effort to gauge the effectiveness of the session format, we asked all participants to fill outan exit questionnaire. We collected 54, some of which were only partially filled out. Participantswere asked to rate the quality of the session overall on a 3 point scale, from which we got: 50%“Great”, 30% “OK”, 20% No response. A similar question on the quality of the small groupdiscussion format in particular resulted

Conference Session

Engineering Technology Curriculum Issues

Collection

2012 ASEE Annual Conference & Exposition

Authors

Phillip R. Foster, University of North Texas

Tagged Divisions

Engineering Technology

Stirling engine contains two power pistons. Each piston has an individualconnecting rod and cylinder. One power piston and cylinder represents hot workspace, the otherrepresents cold workspace. The two connecting rods join at a common journal on a singleflywheel/crankshaft. This dual cylinder arrangement results in hot and cold workspaces whichare physically separated. This feature provides excellent thermal isolation for the twoworkspaces, however, the conduit that joins the two workspaces can add to the dead spaceassociated with the Alpha type. The Alpha then, in its simplest form, utilizes four reciprocatingparts and one rotary part. Power pistons operate with relatively gas-tight seals within theirrespective cylinders. This prevents leakage of

Conference Session

Focus on Elementary

Collection

2012 ASEE Annual Conference & Exposition

Authors

Jeremy V. Ernst, Virginia Tech; Laura Bottomley, North Carolina State University; Elizabeth A. Parry, North Carolina State University

Tagged Divisions

K-12 & Pre-College Engineering

AC 2012-3026: TERM ANALYSIS OF AN ELEMENTARY ENGINEERINGDESIGN APPROACHDr. Jeremy V. Ernst, Virginia Tech Jeremy V. Ernst is an Assistant Professor in the Integrative STEM Education program of the Department of Teaching and Learning at Virginia Tech. He currently teaches graduate courses in STEM education foundations and contemporary issues in Integrative STEM Education. Ernst specializes in research fo- cused on dynamic intervention means for STEM education students categorized as at-risk of dropping out of school. He also has curriculum research and development experiences in technology, engineering, and design education.Dr. Laura Bottomley, North Carolina State University Laura J. Bottomley, Director, Women

Conference Session

Systems Engineering Curriculum and Programs

Collection

2012 ASEE Annual Conference & Exposition

Authors

Kahina Lasfer, Stevens Institute of Technology; Arthur Pyster, Stevens Institute of Technology

Tagged Divisions

Engineering Management, Industrial Engineering, Systems Engineering

in embedded systems. She held other positions related to project management.Dr. Arthur Pyster, Stevens Institute of Technology Art Pyster is a distinguished Research Professor at Stevens Institute of Technology and the Deputy Ex- ecutive Director of the Systems Engineering Research Center (SERC) sponsored by the Department of Defense. During Pyster’s 35-year career, he held several senior positions, including being the Senior Vice President and Director of Systems Engineering and Integration for SAIC and the Deputy Chief Informa- tion Officer for the U.S. Federal Aviation Administration. He is an INCOSE Fellow and a member of their Board of Directors. He currently runs BKCASE, a project that is establishing the

Conference Session

Course and Curriculum Development

Collection

2012 ASEE Annual Conference & Exposition

Authors

Yuan Liao, University of Kentucky; Lawrence Holloway, University of Kentucky; Paul A. Dolloff, University of Kentucky

Tagged Divisions

Multidisciplinary Engineering

discussed. Then, the concepts of smart gridare introduced. An overview of the key technologies, vision, scope, and benefits of smart grid isgiven. In addition, standards relevant to smart grid development and deployment are brieflyintroduced. National Institute of Standards and Technology (NIST), North American ElectricReliability Corporation (NERC), International Electrotechnical Commission (IEC), and Institute Page 25.454.3of Electrical and Electronics Engineers (IEEE) are the major organizations responsible fordeveloping such standards. Example standards include IEC 61968 – application integration atelectric utilities, IEC 61850-communication

Conference Session

Four Pillars of Manufacturing Engineering

Collection

2012 ASEE Annual Conference & Exposition

Authors

David L. Wells, North Dakota State University

Tagged Divisions

Manufacturing

best grasped as a graphic representation of the edifice of the manufacturing sector. The original conception of the Four Pillars also identifies an extensive selection instructionaltopics that further define each of the pillars.8 As with all such topical specifications, there are farmore highly relevant topics than can practically be accommodated as distinct courses in a time-and resource-limited undergraduate curriculum. The crucial topics must, therefore, beincorporated into a curriculum as modules integrated throughout the curriculum. Moreover, theextensiveness of the list of relevant topics becomes a powerful argument for creating an                                                        bThe major events were: Manufacturing Education

Collection

2012 ASEE Zone 1 Conference

Authors

Yacob Astatke; Craig Scott; Kemi Ladeji-Osias; Petronella James

education is engineering. While close to 320 engineeringschools in the USA have received accreditation from the Accreditation Board for Engineeringand Technology (ABET) for their undergraduate programs, only a handful of those offerengineering programs that are completely online at the graduate and/or undergraduate level. Thetrend has started to change lately, and every year more and more engineering programs areadding an online component to their regular curriculum. The main obstacle is the fact that mostengineering curriculums require a very intensive hands-on laboratory component that is veryhard to implement and deliver completely online because of the cost involved in setting uplaboratory equipment for each online student. Currently, only a

Collection

2012 Spring ASEE Middle Atlantic Section Conference

Authors

Yacob Astatke; Craig Scott; Kemi Ladeji-Osias; Petronella James

education is engineering. While close to 320 engineeringschools in the USA have received accreditation from the Accreditation Board for Engineeringand Technology (ABET) for their undergraduate programs, only a handful of those offerengineering programs that are completely online at the graduate and/or undergraduate level. Thetrend has started to change lately, and every year more and more engineering programs areadding an online component to their regular curriculum. The main obstacle is the fact that mostengineering curriculums require a very intensive hands-on laboratory component that is veryhard to implement and deliver completely online because of the cost involved in setting uplaboratory equipment for each online student. Currently, only a

Conference Session

Capstone Courses

Collection

2012 ASEE Annual Conference & Exposition

Authors

Blair T. Allison, Grove City College; Stephen Ludwick, Aerotech, Inc., and University of Pittsburgh; William P. Birmingham, Grove City College

Tagged Divisions

Mechanical Engineering

Interdisciplinary Team and an Industrial PartnerAbstractA team of undergraduate mechanical engineering and computer science students carried out acapstone project focused on the design, fabrication, assembly, and testing of a three-axiscomputer controlled milling machine for notching thin-walled tubes. These notched tubes arejoined to other tubes to produce frames for vehicles for student competitions (e.g., Mini Baja orhuman powered vehicles). This paper reviews mechanical design efforts, fabrication, assembly,derivation of axis trajectories, software development efforts, and the integration of the hardwareand software components that resulted in a successful three-axis tube notcher. Thismultidisciplinary project required close cooperation between