Conference Session

Course and Curriculum Development

Collection

2012 ASEE Annual Conference & Exposition

Authors

Mohamed Abdelrahman, Texas A&M University, Kingsville; Muhittin Yilmaz, Texas A&M University, Kingsville

Tagged Divisions

Multidisciplinary Engineering

AC 2012-4531: BEST PRACTICES IN CREATING AND RUNNING RE-SEARCH EXPERIENCE PROGRAMSProf. Mohamed Abdelrahman, Texas A&M University, Kingsville Mohamed Abdelrahman received the B.S. and M.S. degrees in electrical engineering and engineering physics from Cairo University, Egypt, in 1988 and 1992, respectively. He received an M.S. and a Ph.D. in measurement and control and nuclear engineering from Idaho State University in 1994 and 1996, re- spectively. He is currently the Associate Dean of Engineering at Texas A&M University, Kingsville. Abdelrahman’s research focus is industrial applications of sensing and control with major research fund- ing from the U.S. Department of Energy, National Science Foundation

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 Course Innovation

Collection

2006 Annual Conference & Exposition

Authors

Juliet Hurtig, Ohio Northern University; John-David Yoder, Ohio Northern University; Michael Rider, Ohio Northern University

Tagged Divisions

Multidisciplinary Engineering

real systems. Prerequisites for this course include a course in differential equations, an ME computer applications class, and dynamics. This is a required course in the mechanical engineering curriculum. Typical enrollment is 35 students. • ME 429 – Applications In Control Systems (4 credits). Applications in control systems concentrating on PLCs and ladder logic. Advanced control theory explored. Laboratory work concentrates on PLC applications. The prerequisite is ME 419 or senior standing in electrical or computer engineering. This is an elective course that can be taken by three majors: electrical, computer, and mechanical engineers. Typical enrollment is 16 students. • ME 449

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

Program-Level Assessments for Multidisciplinary Areas

Collection

2017 ASEE Annual Conference & Exposition

Authors

Pearl Elizabeth Ortega, Texas A&M University; Magdalini Z Lagoudas, Texas A&M University; Jeffrey E. Froyd, Texas A&M University

Tagged Divisions

Multidisciplinary Engineering

Institute of Technology. At Rose-Hulman, he co-created the Integrated, First-Year Curriculum in Science, Engineer- ing and Mathematics, which was recognized in 1997 with a Hesburgh Award Certificate of Excellence. He served as Project Director a National Science Foundation (NSF) Engineering Education Coalition in which six institutions systematically renewed, assessed, and institutionalized innovative undergraduate engineering curricula. He has authored over 70 papers and offered over 30 workshops on faculty devel- opment, curricular change processes, curriculum redesign, and assessment. He has served as a program co-chair for three Frontiers in Education Conferences and the general chair for the 2009 conference. Prof

Conference Session

Multidisciplinary Engineering in the First-Year

Collection

2019 ASEE Annual Conference & Exposition

Authors

Huihui H Wang, Jacksonville University; Festus Ogbaisi, Jacksonville University; Martins Slaboh, Jacksonville University; Emre Selvi, Jacksonville University; Maria Javaid, Jacksonville University

Tagged Divisions

First-Year Programs, Multidisciplinary Engineering

careers.References[1] A. K. Ellis, C. J. Stuen, “The Interdisciplinary Curriculum”, Eye On Education. pp. 174, Larchmont, NY, 1998.[2] K. Lake, “Integrated Curriculum”, School Improvement Research Series VIII. Northwest Regional EducationalLaboratory, 1994.[3] R.W. Hendricks, L.J. Guido, J.R. Heflin, S. Sarin, “An Interdisciplinary Curriculum for Microelectronics”,Proceedings of the 2001 American Society for Engineering Education Annual Conference & Exposition, 2011.[4] Capt. Trevor D McLaughlin, “Support for Interdisciplinary Engineering Education Through Application ofIndustry-Focused Case Studies”, 121st ASEE annual conference and exposition, Indianapolis, IN, June 15-18, 2014.[5] A. J. Muscat, E. L. Allen, E. D. H. Green, and L. S. Vanasupa

Conference Session

History, Program Design, and even a Journal Club

Collection

2010 Annual Conference & Exposition

Authors

Smitesh Bakrania, Rowan University

Tagged Divisions

Multidisciplinary Engineering

AC 2010-1117: INTEGRATION OF JOURNAL CLUB IDEOLOGY INTO ANANOTECHNOLOGY COURSESmitesh Bakrania, Rowan University Smitesh Bakrania is an Assistant Professor in Mechanical Engineering at Rowan University. He received his PhD from University of Michigan in 2008 and his BS from Union College in 2003. His research interests include combustion synthesis of nanoparticles and their applications. Page 15.782.1© American Society for Engineering Education, 2010 Integration of Journal Club Ideology into a Nanotechnology CourseNanotechnology is bound to dramatically impact how we use materials in all aspects ofengineering

Conference Session

Multidisciplinary Capstone Design Projects

Collection

2008 Annual Conference & Exposition

Authors

Zachary Gutierrez, University of Wyoming; Charles Dolan, University of Wyoming

Tagged Divisions

Multidisciplinary Engineering

. First, the general rubric identifiescharacteristics that apply to all of the problem sets. The general rubric organizes the informationto ensure each specific rubric follows the same format and preserves the integrity andconsistency of the project results. Information that applies to an individual problem issummarized and captured in a specific rubric. Both rubrics are essential to the success of theassessments. All problem sets are based on a 1.8 kW residential wind turbine. The residential turbinewas selected because there is considerable data available to provide background information,actual sizes for comparison, and the students can relate to this size project. Alternative problemsmay be developed for ranch windmills and commercial

Conference Session

Curriculum Development and Multidisciplinary Instruction

Collection

2013 ASEE Annual Conference & Exposition

Authors

Jeffrey R Seay, University of Kentucky

Tagged Divisions

Multidisciplinary Engineering

Paper ID #6941A New Multidisciplinary Course in Sustainability using a Combination ofTraditional Lecture and Self-Directed Study ModulesDr. Jeffrey R Seay, University of Kentucky Dr. Jeffrey R. Seay is an Assistant Professor of Chemical and Materials Engineering at the University of Kentucky, Paducah Extended Campus. Dr. Seay joined the University of Kentucky in 2008 following a 12 year career in the chemical industry. Dr. Seay completed his BS and PhD from Auburn University and his MS from the University of South Alabama, all in Chemical Engineering. His primary research area is process systems engineering focused on

Conference Session

Multidisciplinary Curriculum Innovation

Collection

2008 Annual Conference & Exposition

Authors

Ronald Kander, James Madison University

Tagged Divisions

Multidisciplinary Engineering

to Engineering” course and continuing through six semesters of a longitudinally integrated design curriculum.• contains integrated business courses designed specifically for engineers. Two required business/management courses have been designed exclusively by the College of Business (COB) for the School of Engineering. COB representatives are also involved in the design and delivery of the “Introduction to Engineering” course, the “Systems Analysis” course, and the entire “Engineering Design” sequence.• provides an integrated focus on sustainability and sustainable design processes. Sustainability and sustainable design concepts are not limited to the two capstone “Sustainability” courses, but rather are incorporated

Conference Session

Multidisciplinary Curriculum Innovation

Collection

2006 Annual Conference & Exposition

Authors

Susan Blanchard, Florida Gulf Coast University; Nosa Egiebor, Florida Gulf Coast University; James Sweeney, Arizona State University; Lisa Zidek, Milwaukee School of Engineering; Chalmers Sechrist, Florida Gulf Coast University; Sam Hulbert, Florida Gulf Coast University; James Osborn, Florida Gulf Coast University; Robert O'Neill, Roger Williams University

Tagged Divisions

Multidisciplinary Engineering

Sciencesand the College of Education, as well as centers and offices related to professional developmentfor K-20 educators, undergraduate scientific and educational research, faculty research, andcommunity outreach, and provides an infrastructure for modeling best practices and forums fordiscussions on issues related to innovations and reform efforts in science, mathematics, andtechnology education. During the early stages of engineering program development at FGCU,faculty associated with The Whitaker Center assisted with the recruitment and selection of leadfaculty for the School of Engineering by interviewing faculty candidates and with curriculum

Conference Session

Multidisciplinary Endeavors: Engineering, Art and Society

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Katherine Hennessey Wikoff, Milwaukee School of Engineering; James R. Kieselburg, Milwaukee School of Engineering; Margaret T. Dwyer, Milwaukee School of Engineering; Candela Marini, Milwaukee School of Engineering

Tagged Divisions

Multidisciplinary Engineering

conference, we discussed how an art museum on thecampus of Milwaukee School of Engineering (MSOE) worked with professors in engineeringand humanities/communication disciplines to incorporate art into the engineering curriculum. Insummer 2019 we conducted IRB-approved research into student engagement with public artsurrounding our urban campus. A walking tour of the sculptures was followed by a focus groupdiscussion in which student participants explored how art might intersect with their engineeringcourse work and how art could be integrated on campus to further reinforce connections betweenengineering and aesthetics.Our paper for this year’s conference reports on progress made to date, summarizing our summer2019 research findings together with the

Conference Session

Multidisciplinary Course Development

Collection

2015 ASEE Annual Conference & Exposition

Authors

Jacquelyn Kay Nagel, James Madison University

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

Elective Liberal Arts Core 4 Design (LCA) Design 6 Figure 1: Schematic illustrating the engineering curriculum [5].All students within the program are required to take courses in engineering science (statics anddynamics, thermal fluids, mechanics and materials, circuits and instrumentation, and systems analysis),engineering design, engineering management, and sustainability. Systems Analysis is the culminatingengineering science course in the curriculum, and as such, it builds off of all prior engineering sciencecoursework and integrates engineering design course knowledge through both qualitative andquantitative analysis of complex systems.The Systems Analysis course is innovative

Conference Session

Multidisciplinary Course Innovation

Collection

2007 Annual Conference & Exposition

Authors

Jason Yao, East Carolina University; Loren Limberis, East Carolina University; Paul Kauffmann, East Carolina University

Tagged Divisions

Multidisciplinary Engineering

√ √ √ √ √A general impression after this extensive search was that it is very difficult to find a book thatfits into an integrated curriculum that uses the course as a prerequisite to subsequentconcentration courses. The Cogdell book (#2 in the list) appeared to be an ideal choice for ourprogram in terms of topic coverage, but the course instructor wanted to have more supportingresources. The Rozzni book (#3) was adopted for our course because it had a comprehensivelist of topics that best suited the requirements for the course and the engineering program at thetime. This book, however, can benefit from more careful editing efforts to reduce the number oftypographical errors.F. Laboratory activitiesThe purpose of the laboratory activities are to

Conference Session

Multidisciplinary Curriculum Innovation

Collection

2008 Annual Conference & Exposition

Authors

Michael Ciaraldi, Worcester Polytechnic Institute; David Cyganski, Worcester Polytechnic Institute; Michael Gennert, Worcester Polytechnic Institute; Michael Demetriou; Fred Looft; William Michalson, Worcester Polytechnic Institute; Bradley Miller, Worcester Polytechnic Institute; Eben Cobb, Worcester Polytechnic Institute; Lance Schachterle, Worcester Polytechnic Institute; Kenneth Stafford, Worcester Polytechnic Institute; Yiming Rong, Worcester Polytechnic Institute; Gretar Tryggvason, Worcester Polytechnic Institute; James Van de Ven, Worcester Polytechnic Institute

Tagged Divisions

Multidisciplinary Engineering

who believe strongly that robotics is just about to change our lives. Thegroup sought input from a wide range of other individuals, both in industry and academe, beforedeciding to develop the new major. The main reasons for going ahead are summarized below:Interdisciplinary: It seems obvious that designing devices that marry sensing, computing, andacting requires individuals who have a background in electrical and computer engineering,computer science, and mechanical engineering. Such individuals are rare and, just as obviously,not every topic usually taught in these disciplines is as important as others for the design ofrobots. Furthermore, design of robots requires emphasis on system integration that goes beyondthat usually included in an

Conference Session

Multidisciplinary Endeavors: Engineering and Liberal Arts

Collection

2019 ASEE Annual Conference & Exposition

Authors

Alyson Grace Eggleston, The Citadel; Robert J. Rabb P.E., The Citadel

Tagged Divisions

Liberal Education/Engineering & Society, Multidisciplinary Engineering

the fundamental principles of technical writing and use a project-based learning model. Much of the general education requirements for engineering students atthe institution occurs in the first two years. Engineering curricula are increasingly moving towardan earlier introduction of engineering content for entering students. Eli Fromm of DrexelUniversity was one of the earliest curriculum innovators to introduce engineering activities earlyin the curriculum, integrating faculty across campus [2]. Similarly, a team consisting of facultymembers from across this institution developed a Technical Writing Course to promotecommunication. However, the faculty discovered an opportunity to develop and assessleadership and teamwork skills in the same

Conference Session

Multidisciplinary Curriculum Innovation

Collection

2009 Annual Conference & Exposition

Authors

Michael Ciaraldi, Worcester Polytechnic Institute; Eben Cobb, Worcester Polytechnic Institute; David Cyganski, Worcester Polytechnic Institute; Michael Demetriou; Greg Fischer; Michael Gennert, Worcester Polytechnic Institute; Fred Looft, Worcester Polytechnic Institute; William Michalson, Worcester Polytechnic Institute; Bradley Miller, Worcester Polytechnic Institute; Taskin Padir, Worcester Polytechnic Institute; Yiming Rong, Worcester Polytechnic Institute; Kenneth Stafford, Worcester Polytechnic Institute; Gretar Tryggvason, Worcester Polytechnic Institute; James Van de Ven, Worcester Polytechnic Institute

Tagged Divisions

Multidisciplinary Engineering

, involving faculty from the departments ofComputer Science (CS), Electrical and Computer Engineering (ECE) and MechanicalEngineering (ME) and was designed top-down, starting with goals and objectives. Recognizingthat it is impossible to include a comprehensive course of study equivalent to a BS in CS, ECE,and ME in a 4-year degree, the new RBE program provides a solid foundation in each, withapplications drawn from Robotics. In keeping with WPI’s educational approach, the curriculumengages students early and often in creative hands-on projects.The core of the program consists of five new courses: an entry-level course and four “unifiedrobotics” courses based on a “spiral curriculum” philosophy, where the students are engaged inincreasingly complex

Conference Session

Integration of Engineering and Other Disciplines (Including Liberal Arts)

Collection

2014 ASEE Annual Conference & Exposition

Authors

Arthur Felse, Northwestern University; Igor Kourkine

Tagged Divisions

Liberal Education/Engineering & Society, Multidisciplinary Engineering

Department of Defense. A number of state governments, universities, non-profitorganizations, and for-profit institutions have also played an important role in enablingtechnology commercialization by offering guidance and assistance to entrepreneurs2. Theseefforts have helped many new technologies to come to fruition, including life-saving drugs andmedical devices, consumer products, communication devices, clean energy, and safe foodproducts3.In order to succeed, technology commercialization must involve properly trained scientists andengineers not only at the birth of a technology but also during the subsequent phases of itscommercialization. The importance of incorporating elements of entrepreneurship andtechnology commercialization in engineering

Conference Session

Multidisciplinary Capstone Design

Collection

2014 ASEE Annual Conference & Exposition

Authors

Michael P. Frank, FAMU-FSU College of Engineering; Kamal E. Amin, Florida A&M University/Florida State University; Okenwa I. Okoli, Florida A&M University/Florida State University; Sungmoon Jung Ph.D., FAMU-FSU College of Engineering; Robert A. Van Engelen, Florida State University; Chiang Shih, Florida A&M University/Florida State University

Tagged Divisions

Multidisciplinary Engineering

Paper ID #9523Expanding and Improving the Integration of Multidisciplinary Projects in aCapstone Senior Design Course: Experience Gained and Future PlansDr. Michael P. Frank, FAMU-FSU College of Engineering Dr. Michael P. Frank has been coordinating the involvement of Electrical and Computer Engineering stu- dents in the Senior Design program at the FAMU-FSU College of Engineering since 2011. He previously advised several individual senior design teams as an assistant professor in the ECE department during the period 2004-2007. Prior to that, he coached several industry-sponsored multidisciplinary senior design teams in

Conference Session

Multidisciplinary Poster Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Lauren D. Thomas, Virginia Tech; Lisa D. McNair, Virginia Tech

Tagged Divisions

Multidisciplinary Engineering

many of theengineering questions facing the next generation?While optics and optical engineering studies and research are often housed in physics andelectrical engineering departments, our web study has found eleven degree granting programs inoptics and photonics or optical engineering. Understanding these programs’ development, goals, Page 22.200.3and curriculum provides insight on this group of scientists and engineers who have becomeincreasingly valuable in the modern world. In addition to offering an uncommon degree option,the faculty who make up these departments are uncommonly interdisciplinary in their ownbackgrounds. Through

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

Poster Session

Collection

2010 Annual Conference & Exposition

Authors

Rupa Iyer, University of Houston

Tagged Divisions

Multidisciplinary Engineering

environment to support the biotech industry through training, research and best practice sharing. 4. Engage in high impact research with an emphasis on environmental biotechnology.The first initiative of the center was to establish a new undergraduate major in biotechnology.This new degree program was developed in collaboration with industry and academic partnersand offers two tracks, one in bioinformatics and the other in bioprocessing. The laboratorycurriculum is a research -based curriculum and uses a pesticide degrading bacteria as a model totrain students on techniques and applications of biotechnology. In summer, we offer outreachprograms to train high school teachers and students. For local incumbent biotech workers, weoffer workforce

Conference Session

Multidisciplinary Course Innovation

Collection

2007 Annual Conference & Exposition

Authors

Ian Papautsky, University of Cincinnati; Erik Peterson, University of Cincinnati

Tagged Divisions

Multidisciplinary Engineering

introduced in the beginning of some lectures.The students commented that the quizzes provided direction by highlighting key concepts andcritical vocabulary. Quizzes also led to more engaging discussions in the classroom.ConclusionsThere is a clear need to convey the necessity for multidisciplinary education early in theengineering curriculum, so that students do not wait until their senior year to take courses inbiology. A good BioMEMS textbook that integrates fundamentals with applications would betremendously helpful to addressing the challenge of teaching the multidisciplinary topic ofbiomedical microsystems to engineers. Overall, the results of this three-year pilot program are

Conference Session

The Interdisciplinary Nature of Engineering

Collection

2014 ASEE Annual Conference & Exposition

Authors

Xiaofeng Tang, Rensselaer Polytechnic Institute

Tagged Divisions

Liberal Education/Engineering & Society, Multidisciplinary Engineering

as well as in academic writing, and a critical inquiry class taught by theHSA faculty. The critical inquiry class has multiple sessions taught by different instructors. Eachsession focuses on a topic that is related to the instructor’s specialty, yet all the sessions have acommon component: for the first few weeks, students and instructors engage in a discussion ofthe meaning of liberal arts education and its implications for HMC. In addition to completing theCommon Core, every student at HMC is required to take at least ten courses in HSA, with atleast four courses in an area of concentration. The engineering curriculum at HMC consists ofthree stems: design, engineering sciences, and system. The design stem includes three

Conference Session

SE Capstone Design Projects, Part II

Collection

2011 ASEE Annual Conference & Exposition

Authors

Steven Corns, Missouri University of Science and Technology; Cihan H. Dagli, Missouri University of Science and Technology; Ivan G. Guardiola, Missouri University of Science and Technology

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

The instruction of systems engineering is a difficult task, as this new yet prevalent area ofengineering requires knowledge within a practitioner that encompasses breadth and depth acrossvarious fields of engineering1. It is a requirement that any systems engineer have both breadthand depth in various niches of engineering poses an interesting problem in the development ofany pedagogy relative to the instruction of key systems engineering fundamentals. Thesefundamentals include design alternative identification, cost assessments, interface integration,risk identification, and many others2. It is through the instruction of systems engineering that keyskill sets necessary for completing the complex engineering tasks of today can be attained

Conference Session

Multidisciplinary Capstone

Collection

2010 Annual Conference & Exposition

Authors

Kumar Yelamarthi, Central Michigan University; P. Ruby Mawasha, Wright State University

Tagged Divisions

Multidisciplinary Engineering

of software, hardware,and mechanical design makes this platform an excellent choice for undergraduate studentprojects in both design and research aspects. Senior CS students have required programmingexperience to develop software programs, EE seniors have sufficient knowledge to understandthe basics of radio frequency, signal processing, and circuit design, and while ME seniors havesufficient knowledge to understand the basics of structural dynamics and thermodynamicanalysis. This integration of complex programming, electrical hardware, and mechanical systemdesign provides an excellent educational experience for undergraduate students. Also, this interdisciplinary platform is systematic and integrated that involves investigating acomplex

Conference Session

Multidisciplinary Engineering Programs

Collection

2019 ASEE Annual Conference & Exposition

Authors

Elizabeth Pluskwik, Minnesota State University, Mankato

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

documented various aspects of the program over its first 9 years. The purpose of thispaper is to describe the current state of the integrated teaching and learning strategies that theprogram uses to facilitate engineering design learning with an entrepreneurial mindset in a PBLmodel.Awareness of the IRE program has increased recently with the program being recognized as theABET 2017 Innovation award winner and in the top ten emerging leaders in engineeringeducation in the “Global state of the art in engineering education” report by Dr. Ruth Grahamreleased in 2018 [1].Purpose of researchThe purpose of this paper is to describe how the Iron Range Engineering (IRE) program leadsstudent engineers to ”become the engineer they want to be” by working with

Conference Session

Multidisciplinary Courses and Projects

Collection

2014 ASEE Annual Conference & Exposition

Authors

Cyrus Habibi P.E., Minnesota State University, Mankato; Motahareh Tina Alaei, Minnesota State University, Mankato; Michael Ryan Lynch

Tagged Divisions

Multidisciplinary Engineering

Paper ID #10156Design of a Power Substation: Technical Learning in the Context of an Industry-Sponsored ProjectDr. Mohammad Habibi, Minnesota State University, Mankato Mohammad Habibi is an Assistant Professor in the department of Integrated Engineering at Minnesota State University, Mankato (MnSU). Prior to coming to MnSU, he was a postdoctoral fellow at the Univer- sity of Wisconsin-Milwaukee. He earned his Ph.D. degree in Electrical Engineering from the University of Wisconsin-Milwaukee in 2010. His primary research interests are in the field of signal processing, dielectric spectroscopy and sensors. Specifically, he is

Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Gül E. Okudan Kremer, Pennsylvania State University, University Park; Mike Murphy, Dublin Institute of Technology; Brian Bowe, Dublin Institute of Technology

Tagged Divisions

Multidisciplinary Engineering

these existing assessment tools is that they have been developed basedon different frameworks, and hence, the integration of non-consistent assessment tools into anoverall program assessment is challenging. Beard et al.7 suggest that an assessment plan toevaluate curricular efforts to integrate professional skills into programs should includestandardized rubrics.Beyond the studies that focused on assessment of individual skills (e.g., teamwork), a few recentstudies proposed more comprehensive assessment tools targeting a larger set of professionalskills. For example, Huyk et al.23 studied engineering students enrolled in multi-disciplinaryproject team courses to investigate the impact of reflections on the service learning and otherproject