Conference Session

Multidisciplinary Course Development

Collection

2015 ASEE Annual Conference & Exposition

Authors

Jodi Reeves, National University; Brian Arnold, National University

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thus studentengagement, in a newly created, multi-disciplinary course with an associated laboratory atNational University. Page 26.229.2Scientific Problem Solving (EGR 320) and Scientific Problem Solving Laboratory (EGR 320L)were created in 2011 as multidisciplinary courses that are required for all undergraduateengineering and computer science students, both online and onsite, at National University. EGR320L uses hands-on computer and engineering tools and the scientific approach to problemsolving in a variety of technical areas. Hands-on lab activities in mechanical engineering,electrical engineering, and thermodynamics are conducted by

Conference Session

Multidisciplinary Outreach and Early Transdisciplinary Courses

Collection

2016 ASEE Annual Conference & Exposition

Authors

Pramod Rajan, Laboratory for Innovative Technology & Engineering Education (LITEE); P.K. Raju, Auburn University

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Paper ID #17135Engineering Grand Challenges Video Competition - A Project Learning Toolin a Cross-disciplinary ClassDr. Pramod Rajan, Laboratory for Innovative Technology & Engineering Education (LITEE) Dr. P. Rajan got his Bachelors in Mechatronics Engineering from Bharathiar University, India in 2004 and Ph.D. in Mechanical Engineering from Auburn University in 2013. He has worked with the Labora- tory for Innovative Technology and Engineering Education (LITEE) at Auburn University for 10 years. His research focuses on development and testing of innovative instructional materials like case studies, smart scenarios

Conference Session

Multidisciplinary Engineering Division Poster Session

Collection

2015 ASEE Annual Conference & Exposition

Authors

Timothy R McJunkin, Idaho National Laboratory; Craig G Rieger, Idaho National Laboratory; Brian K. Johnson, University of Idaho, Moscow; D. Subbaram Naidu P.E., Idaho State University; Lawrence H Beaty; John F. Gardner, Boise State University; Indrajit Ray, Colorado State University; Katya L Le Blanc, Idaho National Laboratory; Michael Guryan, Idaho Regional Optical Network, Inc.

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Paper ID #12942Interdisciplinary Education through ”Edu-tainment”: Electric Grid ResilientControl Systems CourseMr. Timothy R McJunkin, Idaho National Laboratory Timothy R. McJunkin is research engineer at Idaho National Laboratory in the Energy and Environment Science and Technology Division, since 1999. He is also a adjunct instructor at Idaho State Univer- sity, teaching control systems and resilient controls system. Prior to joining INL, he was a design engi- neer at Compaq Computer Corporation in Houston Texas. Mr McJunkin is the principal architect of the GridGame developed for the multiple university

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

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Paper ID #15948Multidisciplinary Game-based Approach for Generating Student Enthusi-asm for Addressing Critical Infrastructure ChallengesMr. Timothy R McJunkin, Idaho National Laboratory Timothy R. McJunkin is a Senior Research Engineer at Idaho National Laboratory in the Energy and Environment Science and Technology Division, since 1999. He has also served as an adjunct instructor at Idaho State University, teaching control systems and resilient controls systems. Prior to joining INL, he was a design engineer at Compaq Computer Corporation in Houston Texas. Mr. McJunkin is the principal architect of the Grid Game

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

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place of formal laboratory reports, students create technical memos, written by rotating teamleaders, that includes their recommendations or responses to the presented problem. Allrecommendations must be based on their devised experimental approach and the actual data thatwas obtained. Students are also required to complete an error analysis by considering changes toimprove data acquisition, should the experiment be run again. The technical memos are gradedagainst a defined rubric that assesses the work with a focus on the designed experimentalapproach, data reporting and presentation, and recommendations based heavily upon thoseresults. The grading is designed to allow students a level of academic freedom from right andwrong answers, focusing

Conference Session

Investigating Instructional Strategies

Collection

2017 ASEE Annual Conference & Exposition

Authors

Stephanie Luster-Teasley, North Carolina A&T State University; Sirena C. Hargrove-Leak, Elon University; Willietta Gibson, Bennett College

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actual events or situations. This work explores the impact ofthe use of case studies in an environmental engineering laboratory, introductory engineeringcourse, introductory biology seminar course, and upper level biology course. Motivations forimplementing the cases include determining how case studies teaching impacts students’ abilityto carry out a scientific investigation (from hypothesis to data analysis to discussion of results)and if the results correlate to students’ learning style preferences. This work is part of acontinuing funded investigation of the use of case studies with the potential to contribute to thebody of knowledge related to the use of learning styles assessments in educational practiceacross a variety of disciplines. The

Conference Session

Multidisciplinary Service and Outreach Projects

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Ahmed Cherif Megri, North Carolina A&T State University; Sameer Hamoush, North Carolina A&T State University

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2Dr. AC. Megri 2020 ASEE Annual ConferenceUniversity as the lead and several universities as the sub-recipients. The activities of thisconsortium are carried out in partnership with four national research laboratories. Theconsortium agreement favors greater coverage of expertise, the inclusion of technical forcesfrom several universities and laboratories, for a much greater impact through the interactionand collaboration as well as a greater coverage of research areas, equipment and labs.Launching and managing a functional consortium with multiple partner universities andlaboratories is often a complex task, because of the difficulties associated to the programs’complexity at a

Conference Session

Multidisciplinary Endeavors: Engineering, Art and Society

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Joseph Churchill Tapia II, University of Kentucky; Danielle Nicole Dutton, University of Kentucky; Ronald Justin Vogler, University of Kentucky; Evan Yang, University of Kentucky; Sarah A. Wilson, University of Kentucky

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laboratory experiences are less available, including extended school closuresdue to current circumstances or other uncontrollable events, such as natural disasters [7].However, the benefits of these lab kits to grade-school students could extend beyond abnormalcircumstances. They could be used to add increased variety and depth to homework assignments,allowing the educational benefits of lab science to be realized outside of the classroom and thetime and procedural restrictions of in-class labs. Drawing inspiration from the work of Pinnell etal. [8] on engineering challenges for students that utilized fixed sets of materials, the lab kitscould also be tailored to serve as a vehicle for STEM outreach that motivates students to becomemore interested

Conference Session

Experiential Learning Initiatives

Collection

2017 ASEE Annual Conference & Exposition

Authors

Jiahui Song, Wentworth Institute of Technology; Gloria Guohua Ma, Wentworth Institute of Technology

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project at the end. This paper presents our study with differentlab delivery formats, including preparation, implementation, survey data, observations, andfindings.Course BackgroundIntroduction to Engineering in our institution is a 3 credit course. The course includes one 1-hourlecture, and two 2-hour labs/week. In the lecture, students develop the skills needed during theirstudy of engineering. Topics include task/time management, effective use of notes, engineeringresearch, oral and written communications, problem-solving techniques, ethics and professionalresponsibility and institute resources. In the laboratory, students work in teams to complete avariety of engineering tasks.Each class is set to 85 students maximum. The lecture is held at a

Conference Session

Multidisciplinary Approaches for Enhancing Non-technical Skills

Collection

2015 ASEE Annual Conference & Exposition

Authors

Elizabeth Wuerffel, Valparaiso University; Jeffrey Dale Will, Valparaiso University

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and engineering projects. She also co-directs the Welcome Project (welcomeproject.valpo.edu), a first-person story collection about identity and inclusion.Dr. Jeffrey Dale Will, Valparaiso University Will completed his B.S.E.E., M.S.E.E., and Ph.D. degrees from the University of Illinois at Urbana- Champaign and has been a full-time faculty member in the Electrical and Computer Engineering De- partment at Valparaiso University since August of 2001. He teaches courses in senior design, computer architecture, digital signal processing, freshman topics, and circuits laboratories and is heavily involved in working with students in undergraduate research. Will is also a 2013 recipient of the Illinois-Indiana ASEE

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

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laboratory apparatus for advancement of novel electronic devices, in addi- tion to curriculum development for inquiry-based learning and facilitation of interdisciplinary, student-led project design. She emphasizes engineering sustainable solutions from a holistic perspective, incorporat- ing analysis of the full technological life cycle and socioeconomic impact.Dr. Tamara Ball, University of California, Santa Cruz Dr. Tamara Ball is a project-scientist working with the the Sustainable Engineering and Ecological De- sign (SEED) collaborative at UCSC. She is the program director for Impact Designs - Engineering and Sustainability through Student Service (IDEASS) and Apprenticeships in Sustainability Science and En

Conference Session

Promoting Multidisciplinary Efforts

Collection

2016 ASEE Annual Conference & Exposition

Authors

Priya Manohar, Robert Morris University

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engineering practice case problemsPedagogical outcomes that are relevant for software verification and validation have beenidentified at the author’s institution based on ABET Criterion 3 outcomes assessment. Therelationships between the specified ABET outcomes for this course and their correspondencewith the revised Bloom’s taxonomy for STEM disciplines is shown in Table 2. The seven levels(taxa) of conceptual and procedural knowledge and skills taxonomy proposed by Girgis 18mentioned in Table 2 are defined as follows:Taxa I - Pre-knowledge Conceptual Experiences: hands-on laboratory experiences viademonstrations, physical models, practical applications to demonstrate, visualize and observebasic conceptsTaxa II - Basic

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

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Electrical Engineering from Bogazici University in Istanbul, Turkey in 1980. He received his MS degree from Michigan Tech in 1983 and his PhD degree from NC State University in 1988. Immediately after graduation, he joined the faculty in the Department of Electrical and Computer Engineering. Since 2008, Dr. Ozturk has been serving as the director of the NCSU Nanofabrication Facility, which operates as the central laboratory for the entire University. In 2012, he became the education and diversity director of the NSF sponsored ASSIST Nanosystems Engineering Research Center. In 2015, he has started serving as the deputy director of the same center. Dr. Ozturk’s research interests center around innovations in engineering

Conference Session

Multidisciplinary Approaches to Sustainability and Grand Challenges

Collection

2015 ASEE Annual Conference & Exposition

Authors

Teresa J. Cutright, University of Akron

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laboratory, office hours, orother venues, is one of the key college experiences associated with studentdevelopment.13 In the two years prior to the project timeline described here, thestudents participated in team building activities and research experiences thatprepared them for the final project. The preliminary activities, particularly theteam building skills, described in Cutright et al.14 were used to enable thestudents' to develop into an effective interdisciplinary team as well as address thepotential lack of interest in core STEM classes. This is in line with Wilson etal.2,15 who reported that mentoring, education, and research were all critical forcollege and post-college persistence in STEM. Students that participate in wellstructured

Conference Session

Program-Level Assessments for Multidisciplinary Areas

Collection

2017 ASEE Annual Conference & Exposition

Authors

Umesh Adhikari, Michigan State University; Jade Mitchell, Michigan Sate University, Dept. of Biosystems and Agricultural Engineering; Julie Libarkin, Michigan State University; Mark H Weir, The Ohio State University (Eng. & Eng. Tech.)

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. ii. Use a labeled arrow to represent processes.Figure 5. Question asked to the participants prior to the QMRAIII workshopThe pre-workshop diagram constructed by the participants served as the benchmark of theirknowledge on QMRA approach of risk management and their ability to communicate theirunderstanding in a succinct form.The QMRAIII workshopSixteen scientists/professors from 9 institutes from the USA and The Netherlands deliveredlectures as well as laboratory exercises that covered a wide aspect of microbial risk assessment.The lecture started with an introduction to the QMRA framework and included different aspectsof QMRA approach and components. The QMRA components discussed included hazardidentification; pathogen detection; fate and

Conference Session

Multidisciplinary Engineering Programs

Collection

2018 ASEE Annual Conference & Exposition

Authors

Saniya Leblanc, George Washington University; Ekundayo Shittu, George Washington University

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topics and training along with professional skills development seemedcritical to the overall benefit of the program.MethodsPrevious reports described the program structure and evaluation results in the program’s firstyear [1]. Briefly, the eight-week long program consisted of four modules: (1) soft lithographyand microfluidics, (2) fabrication (photolithography and electron beam lithography, deposition,and etch), (3) characterization (microscopy and electrical probing), and (4) finance andcommercialization. Mornings were spent doing lessons on content area knowledge andexplaining techniques, and afternoons had hands-on training and laboratory activities. One dayper week and non-training times were devoted to a research project which spanned the

Conference Session

Multidisciplinary Experiences: Teaching in a Pandemic

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Bahaa Ansaf, Colorado State University - Pueblo; Nebojsa I. Jaksic, Colorado State University - Pueblo

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create the final product (a wolf headnutcracker), as shown in Figure 3. The project includes cost analysis and a production plan, includingdifferent types of machining, casting, metal forming, welding, plating, and assembly processes.2.4 EN462 Industrial Robotics Course The Industrial Robotics course is a three-credit hour, senior-level, regular, one semester courseoffered to about 20 engineering students enrolled in the BSE Program with Mechatronics Specialization.The course includes two hours of lecture and two contact hours of laboratory exercises per week. Thisfirst course in robotics is intended to enable students to design, control, and maintain robots and robotic-based systems. The course provides engineering students with both the

Conference Session

Edifying Engineering Education through Multidisciplinary Efforts

Collection

2017 ASEE Annual Conference & Exposition

Authors

Nael Barakat P.E., Texas A&M University, Kingsville; David Ramirez, Texas A&M University, Kingsville; Selahattin Ozcelik, Texas A&M University, Kingsville; John Austin McCoy, Texas A&M University, Kingsville; Aws Al-Shalash; Jong-Won Choi, Texas A&M University, Kingsville

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in design exercises and experiences throughout their academicundergraduate careers, and provides student support in an innovative configuration of cascadedpeer-mentoring. In addition, the project incorporates engineering design experiences across theundergraduate curriculum with linkages to the university’s engineering innovation laboratory foraccess to industry projects. This contributes to increased student retention and persistence tograduation. CASCADE uses research proven practices to create a retention program based onintegrated curriculum, peer-mentoring, learning communities, and efforts that build innovation andcreativity into the engineering curriculum. The design efforts introduced by this project verticallyalign PBL that is fused

Conference Session

Teaching Problem Solving in a Multidisciplinary Context

Collection

2015 ASEE Annual Conference & Exposition

Authors

Denia Djokic, University of California, Berkeley; Wil V. Srubar III, University of Colorado, Boulder

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pertaining to engineeringstructures; (6) to see (in person) modern engineering marvels.The principles of structural engineering and calculations of efficiency and safety were presentedthrough the use of structural case studies. Homework assignments, laboratories, and hands-ondesign projects were designed to emphasize structural analysis for columns, towers, buildings,trusses, and arch structures. This course included field trips to relevant local landmarks,documentaries, structural analysis using computer modeling software, and hands-on learning bybuilding and testing domes and a model bridge. In addition to technical calculations, this courseemphasized the importance of effective communication in the field of engineering throughstudent

Conference Session

Multidisciplinary Learning Experiences

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Lynn Albers, Hofstra University; Edward H. Currie, Hofstra University; David M. Rooney, Hofstra University; Robyn Alma, Hofstra University; Travis Chen Shen, Hofstra University

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receipt of pledged financial supportguaranteeing the program’s solvency for at least the next four years.In addition to the scholarly work produced, helping both faculty and students professionally, theprogram also ensured greater utilization of laboratories during what was previously a relativelyslack time between the end of one academic year and the start of the next. By making availablethe skilled labor of highly talented students, the program also is producing a noticeable shift infaculty research areas toward topics that dovetail well with programs that emphasizeundergraduate education.The summer of 2019 marked the fourth year of the official program, and the sixth of any paidsummer research experience. Table 1 shows the growth of the number

Conference Session

Multidisciplinary Design II

Collection

2018 ASEE Annual Conference & Exposition

Authors

Jason Forsyth, York College of Pennsylvania; Mark M. Budnik, Valparaiso University; Randi Shedlosky-Shoemaker, York College of Pennsylvania; Jeffrey Will, Valparaiso University

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the Electrical and Computer Engineering De- partment at Valparaiso University since August of 2001. He teaches courses in senior design, computer architecture, digital signal processing, freshman topics, and circuits laboratories and is heavily involved in working with students in undergraduate research. Will is also a 2013 recipient of the Illinois-Indiana ASEE Section Outstanding Teacher Award and the 2014 ASEE National Outstanding Teaching Award. Upon coming to Valparaiso University, Will established the Scientific Visualization Laboratory (SVL), a facility dedicated to the use of Virtual Reality (VR) for undergraduate education. Working exclusively with undergraduate students, Will developed VR hardware and

Conference Session

Multidisciplinary Engineering Programs

Collection

2019 ASEE Annual Conference & Exposition

Authors

Edward F. Crawley, Massachusetts Institute of Technology; Anette Hosoi, Massachusetts Institute of Technology; Gregory L. Long Ph.D., Massachusetts Institute of Technology; Timothy Kassis, Massachusetts Institute of Technology; William Dickson, General Motors; Amitava 'Babi' Mitra, Massachusetts Institute of Technology

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to build an interconnected community of faculty, students, industry partners, alums and athletes who are dedicated to applying their technical expertise to advance the state-of-the-art in sports.Dr. Gregory L. Long Ph.D., Massachusetts Institute of Technology Gregory L. Long, PhD is currently the Lead Laboratory Instructor for NEET’s Autonomous Machines thread at the Massachusetts Institute of Technology. He has a broad range of engineering design, proto- type fabrication, woodworking, and manufacturing experience, and he has taught mechanical engineering design, robotics, control of mechanical systems, and a variety of mathematical topics for over 20 years before joining the faculty at MIT. He has published

Conference Session

Edifying Engineering Education through Multidisciplinary Efforts

Collection

2017 ASEE Annual Conference & Exposition

Authors

Behnaam Aazhang, Rice University; Randal T. Abler, Georgia Institute of Technology; Jan P. Allebach, Purdue University, West Lafayette (College of Engineering); L. Franklin Bost, Virginia Commonwealth University; Joseph R. Cavallaro, Rice University; Edwin K. P. Chong Ph.D., Colorado State University; Edward J. Coyle, Georgia Institute of Technology; Jocelyn B. S. Cullers, Boise State University; Sonya M. Dennis, Morehouse College; Yingfei Dong, University of Hawai'i at Mānoa; Prasad N. Enjeti, Texas A&M University; Afroditi V. Filippas, Virginia Commonwealth University; Jeffrey E. Froyd, Texas A&M University; David Garmire, University of Hawai'i at Mānoa; Jay George; Brian E. Gilchrist, University of Michigan; Gail S. Hohner, University of Michigan; William L. Hughes, Boise State University; Amos Johnson, Morehouse College; Charles Kim, Howard University; Hale Kim, INHA University; Robert H. Klenke, Virginia Commonwealth University; Magdalini Z. Lagoudas, Texas A&M University; Donna C. Llewellyn, Boise State University; Yung-Hsiang Lu, Purdue University, West Lafayette (College of Engineering); Kevin James Lybarger, University of Washington; Stephen Marshall P.E., University of Strathclyde; Subra Muralidharan, University of California, Davis; Aaron T. Ohta, University of Hawai'i at Mānoa; Francisco Raul Ortega, Florida International University; Eve A. Riskin, University of Washington; David M. Rizzo; Candace Renee Ryder, Colorado State Univerisity; Wayne A. Shiroma, University of Hawai'i at Mānoa; Thomas J. Siller, Colorado State University; J. Sonnenberg-Klein, Georgia Institute of Technology; Seyed Masoud Sadjadi, Florida International University; Scott Munro Strachan, University of Strathclyde; Mohsen Taheri, Florida International University; Gary L. Woods, Rice University Department of Electrical & Computer Engineering; Carla B. Zoltowski, Purdue University, West Lafayette (College of Engineering); Brian C. Fabien, University of Washington; Phiilp Johnson, University of Hawaii at Manoa; Robert Collins, Univesrity of Strathclyde at Georgia Tech; Paul Murray

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Paper ID #19405Vertically Integrated Projects (VIP) Programs: Multidisciplinary Projectswith Homes in Any DisciplineProf. Behnaam Aazhang, Rice University Behnaam Aazhang received his B.S. (with highest honors), M.S., and Ph.D. degrees in Electrical and Computer Engineering from University of Illinois at Urbana-Champaign in 1981, 1983, and 1986, re- spectively. From 1981 to 1985, he was a Research Assistant in the Coordinated Science Laboratory, University of Illinois. In August 1985, he joined the faculty of Rice University, Houston, Texas, where he is now the J.S. Abercrombie Professor in the Department of Electrical

Conference Session

Multidisiplinary Student Research Experiences

Collection

2015 ASEE Annual Conference & Exposition

Authors

Natacha Depaola, Illinois Institute of Technology; Eric M. Brey, Illinois Institute of Technology; Fouad Teymour, Illinois Institute of Technology; Paul R. Anderson, Illinois Institute of Technology; Roberto Cammino, Illinois Institute of Technology; Bonnie Haferkamp, Illinois Institute of Technology; Jamshid Mohammadi, Illinois Institute of Technology

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 Abstract: Undergraduate (UG) research is an important component of today’s engineeringeducation. Research experiences allow students to explore beyond the classroom by applyingconcepts towards scientific discovery and the development of products and technologies thatimpact society. The number of UG engineering students interested in participating in research isincreasing. However, UG research opportunities are often limited to students finding a project,laboratory, and mentor on their own. Therefore, only a handful of students typically benefit froma mentored UG research experience. In addition, students seeking UG research opportunities andprojects have little, if any, knowledge on how to conduct research. A well-structured, guided

Conference Session

Multidisciplinary Engineering Division Poster Session

Collection

2015 ASEE Annual Conference & Exposition

Authors

Subodh Bhandari, Cal Poly Pomona; Zekeriya Aliyazicioglu, California State Polytechnic University, Pomona; Fang Tang, Cal Poly Pomona; Scott Matthew Boskovich, California State Polytechnic University, Pomona

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. Dr. Bhandari leads a multi-disciplinary team of faculty and students from several departments within the Colleges of Engineering and Science at Cal Poly Pomona for research on unmanned systems. He has also been collaborating with other uni- versities and aerospace industry. He has obtained federal and industry support for his research on UAV’s including funding from National Science Foundation, Army Research Office, Jet Propulsion Laboratory, and Northrop Grumman Corporation. He has published several papers on his UAV research. He is a senior member of AIAA and a member of ASEE, American Helicopter Society (AHS), Association for Unmanned Vehicles International (AUVSI), and Sigma Gamma Tau, the Aerospace

Conference Session

Multidisciplinary Course Development

Collection

2015 ASEE Annual Conference & Exposition

Authors

Michael Richey, The Boeing Company; Fabian Zender, The Boeing Company; Charles J Camarda, NASA

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received a bachelor of science degree in aerospace engineering from Polytechnic Institute of Brooklyn in 1974 and a master of science degree in engineering science from George Washington University in 1980. In 1990, he received a doctorate in aerospace engineering from Virginia Polytechnic Institute and State University. Upon completing his B.S. degree from the Polytechnic Institute of Brooklyn, Camarda began work for NASA’s Langley Research Center, Hampton, Virginia, in 1974. He was a research scientist in the Ther- mal Structures Branch of the Structures and Materials Division and was responsible for demonstrating the feasibility of a heat-pipe-cooled leading edge for Space Shuttle by analysis, laboratory experiments

Conference Session

Multidisciplinary Curriculum and Course Development

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Jorge R. Lara, Texas A&M University; Sunay Palsole, Texas A&M University; Mark H. Weichold, Texas A&M University; Patrick Linke, Texas A&M University at Qatar

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the Center for Digital Education’s Top 30 Technologists, Transformers and Trailblazers for 2016.Dr. Mark H. Weichold, Texas A&M University Dr. Mark H. Weichold, Regents Professor and Halliburton Engineering Global Programs Professor, is an electrical engineer and has worked for General Dynamics Ft. Worth Division, Motorola in Austin, TX and the U.S. Army Electronic Technology and Devices Laboratory in Ft. Monmouth, NJ. He joined the Electrical Engineering faculty at Texas A&M University in 1982 and now holds the rank of Professor. In January 2007, he became Dean and CEO of Texas A&M University’s branch campus in Doha, Qatar. After completing nine years as the Dean and CEO of Texas A&M at Qatar, he

Conference Session

Promoting Multidisciplinary Efforts

Collection

2016 ASEE Annual Conference & Exposition

Authors

Todd Kaiser, Montana State University

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Multidisciplinary Engineering

mechanical engineering students have developed autonomousground vehicles2, and civil engineering students have gone through the design/build process tocreate concrete canoes for competitions.3 Many of these competitions have corporate andgovernmental agency sponsors. NASA has sponsored an annual Lunabotics Mining Competitionsince 2010, where student engineering teams design and build a remote-controlled excavator forharvesting lunar soil.4,5 The Shell Eco-Marathon challenges students to design, build and drive aself-built energy efficient car.6 The Air Force Research Laboratory University NanosatelliteProgram competition tasks teams to design and deliver a small satellite that will accomplish areal-world mission.7 Others have reported on their

Conference Session

Multidisciplinary Experiences: Teaching in a Pandemic

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Abigail E. Heinz, Rowan University; Matthew Strauss; Kaitlin Mallouk, Rowan University; Mary Staehle, Rowan University

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in-person laboratory experiences. The course used the video conferencing clientZoom as the primary method of communication. If virtual and in-person learning was happeningsynchronously, the Zoom call was projected in the classroom so that all students could see andhear each other. A video and audio feed was also available from the classroom so that studentscould hear each other across platforms.ResultsThe results of both Cohort A and Cohort B’s activities were extremely promising. Students inCohort A had statistically significant improvements in the number of other students they feltcomfortable working with over the course of the semester. At the start of the semester, studentsidentified in the survey that they were willing to work with an

Conference Session

Multidisciplinary Endeavors: Mechatronics, Robotics, and Technology

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Lei Miao, Middle Tennessee State University; Tanzeena Karim, Middle Tennessee State University; Tamir Shahir Hussain; Cen Li, Middle Tennessee State University

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enhance student learning in a senior feedback controls lecturecourse," ASEE Annual Conference, Atlanta, GA.[5] Parker, J. M., Canfield, S. L., and Ghafoor, S. K., 2014, "Using hardware-basedprogramming experiences to enhance student learning in a junior-level systems modelingcourse," ASEE Annual Conference, Indianapolis, IN.[6] Candelas, F., Garcia, G. J., Puente, S., Pomares, J., Jara, C. A., Pérez, J., Mira, D., andTorres, F., 2015, "Experiences on using Arduino for laboratory experiments of automatic controland robotics," IFAC-PapersOnLine, 48(29), pp. 105-110.[7] Reguera, P., García, D., Domínguez, M., Prada, M., and Alonso, S., 2015, "A low-cost opensource hardware in control education. Case study: Arduino-feedback MS-150,"IFACPapersOnLine