Conference Session

Sustainability and Environmental Issues

Collection

2009 Annual Conference & Exposition

Authors

Bradley Striebig, James Madison University; Susan Norwood, Gonzaga University

Tagged Divisions

Multidisciplinary Engineering

each unit’s content linked to the projects that are a part of theWATER program. We wanted students to be ready to “hit the ground running” armed withbackground knowledge since we would not be holding class sessions in Benin. Each unit ofcontent required completion of a study guide. Other course assignments have includeddevelopment of a teaching plan; participation in teaching water testing and filter manufacturingactivities; and reflective journaling. Students were assigned to interdisciplinary groups todevelop and implement teaching plans. These plans were developed before travelling to Benin,reviewed by course faculty, and revised as needed. Students also could negotiate individualizedprojects with the instructors.The reflective journaling

Conference Session

Multidisciplinary Endeavors: Engineering and Liberal Arts

Collection

2019 ASEE Annual Conference & Exposition

Authors

Sarah Summers, Rose-Hulman Institute of Technology; Anique Julienne Olivier-Mason, Brandeis University; Marina Dang, Massachusetts Institute of Technology; Diana M. Chien, Massachusetts Institute of Technology

Tagged Topics

Diversity

Tagged Divisions

Liberal Education/Engineering & Society, Multidisciplinary Engineering

several department-specific Comm Labs, 2)Brandeis’s centralized Comm Lab for their Division of Science, and 3) Rose-Hulman’sundergraduate-only centralized Comm Lab for students using a multidisciplinary, co-curricularspace. We then discuss these adaptations with a focus on how our different institutional profilesshape our Comm Lab design. Specifically, we draw connections between institutional data andthe disciplinary focus, scale, and institutional fit of each Comm Lab. We conclude by sharingdata about the Comm Labs’ success, reflecting on the importance of continued data collection,and considering the value of cross-institutional collaboration. Our conclusion reflects both thelimitations of our study and the need for ongoing research. These

Conference Session

Integrating Systems Engineering into the Capstone Project

Collection

2016 ASEE Annual Conference & Exposition

Authors

Vigyan Jackson Chandra, Eastern Kentucky University

Tagged Divisions

Multidisciplinary Engineering, Systems Engineering

places, or community settings. The courseincludes a considerable amount of experiential learning, requiring students to reflect on theirdesign and developmental efforts throughout the semester. Projects which enhance safety,accessibility, or “greener” alternatives to existing devices often serve as potential projects.Each student selects a project from a broad program area such as electricity and electronics,computer systems, or networking. Project topics which bridge multiple program areas orinclude mechanical components are recommended. These projects allow students theopportunity for showcasing their knowledge, skills, and professional work practices.Learning in the capstone course is directed so that it is solution based. Students start off

Conference Session

Understanding and Measuring the Impact of Multidisciplinarity

Collection

2010 Annual Conference & Exposition

Authors

Alexandra Coso, University of Virginia; Reid Bailey, University of Virginia

Tagged Divisions

Multidisciplinary Engineering

). Instead of focusing on just how tointegrate the knowledge and methods of each discipline, the students reflected on the importanceof determining how tasks would be delegated. The Division of Labor Tier 1 category was derivedfrom these reflections, and the three Tier 2 categories describe the differences of opinion amongthe students. Some students preferred to “have subgroups working within their specialty and thencollaborating and communicating with other subgroups of different specialties”, while otherswould “generalize tasks more so that everyone in the group would be able to work with each[sic] other”. Table 5: Coding Scheme for Integration Across Disciplines

Conference Session

Integration of Engineering and Other Disciplines (Including Liberal Arts)

Collection

2014 ASEE Annual Conference & Exposition

Authors

Katherine Hennessey Wikoff, Milwaukee School of Engineering; Cynthia Wise Barnicki, Milwaukee School of Engineering; James R. Kieselburg II, Grohmann Museum at Milwaukee School of Engineering

Tagged Divisions

Liberal Education/Engineering & Society, Multidisciplinary Engineering

Museum’s CollectionWithin STEM education, a movement called STEAM (Science, Technology, Engineering, Art,and Mathematics) is gathering momentum. Yet, while articles abound with ideas forincorporating STEAM concepts into K-12 classrooms, the literature on STEAM education at theuniversity level is scant. Complicating matters is the fact that the “A” in STEAM does notalways stand for “Art”; for example, in one recent ASEE paper that contains the words “STEAMcurricula” in its title, the “A” stands for “Agriculture” [1].However, reflections on STEAM at the university level can be found in a few papers presented atthe 2013 ASEE convention. One, “Faculty reflections on a STEAM-inspired interdisciplinarystudio course,” offers insights on the opportunities

Conference Session

Engineering and Other Disciplines

Collection

2009 Annual Conference & Exposition

Authors

Mahmoud Quweider, University of Texas, Brownsville; Adriana Perez, University of Texas, Brownsville; Gabriala Oropeza, University of Texas, Brownsville; Juan Iglesias, University of Texas, Brownsville

Tagged Divisions

Multidisciplinary Engineering

application was tested with 10 realsample surveys. The appendix shows a sample of one of such surveys. As the software was putto use, the staff from the school of public health started giving feedback on any discovered bugsin the system. The GUI was adjusted more than once to reflect new requirements. Major changes Page 14.351.8and new recommendation were left for upcoming releases and future collaborations.Assessment and InstitutionalizationThe project was engaging to the CIS and Public Health students in many ways. To capitalize onthe success of this experiment and benefit future students, the leaders of the project, Dr.Quweider and Dr

Conference Session

Multidisciplinary Service and Outreach Projects

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Kristie Gutierrez, Old Dominion University; Stacie I. Ringleb, Old Dominion University ; Jennifer Jill Kidd, Old Dominion University; Orlando M. Ayala, Old Dominion University; Pilar Pazos, Old Dominion University; Krishnanand Kaipa, Old Dominion University

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

a science methods class (n = 15). The paired classes collaborated inmultidisciplinary teams of 5-8 undergraduate students to plan and teach engineering lessons tolocal elementary school students. Teams completed a series of previously tested, scaffoldedactivities to guide their collaboration. Designing and delivering lessons engaged universitystudents in collaborative processes that promoted social learning, including researching andplanning, peer mentoring, teaching and receiving feedback, and reflecting and revising theirengineering lesson. The research questions examined in this pilot, mixed-methods research study include: (1)How did PSTs’ Ed+gineering experiences influence their engineering and science knowledge?;(2) How did PSTs

Conference Session

Multidisciplinary Curriculum Innovation

Collection

2007 Annual Conference & Exposition

Authors

Mahmoud Quweider, University of Texas-Brownsville; Juan Iglesias, University of Texas-Brownsville; Amajd Zaim, University of Texas-Brownsville

Tagged Divisions

Multidisciplinary Engineering

. Page 12.573.72.1. Bit Maps and ImagesBit images and maps are at the heart of any game as they are used to display the environment,terrains, character, weapons, and special effects. To display images at different places in thebuffer, OpenGL provides operations for reading, copying and drawing pixels. These commandsuse the following functions respectively: glReadPixels() - reads a region of the frame buffer intooff-screen (processor) memory; glCopyPixels()- copies a region of the frame buffer into anotherpart of the frame buffer; glDrawPixels()- draws a given pixmap into the frame buffer.In the process of transferring and copying pixels OpenGL provides the capability to magnify,reduce, or flip (reflect) an image. The function glPixelZoom

Conference Session

Design in Multidisciplinary Learning Environment

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Monica A. Mellini P.E., Montgomery College

Tagged Divisions

Multidisciplinary Engineering

,with the advantage of the ability to summon the instructor to join a breakout room for discussion,clarification, and consultation with an individual team. Teams organized additionalcollaboration outside of class, through modalities of their choosing, which typically includedadditional video conferencing, email exchange, and chatting.To convey the flavor of the course, the following panels illustrate the Blackboard contentpresented in one weekly module for the first topic in the course. Each weekly lesson attemptedto engage the students using multiple modalities.In the beginning of the course, reflection exercises prompted students to consider the role of theengineer, social justice framings of engineering, and each student’s self-conception as

Conference Session

Engaging Faculty Across Disciplines, Colleges, and Institutions

Collection

2017 ASEE Annual Conference & Exposition

Authors

Sarah Donaher, Clemson University; Claire L. A. Dancz, Clemson University; Jeffery M. Plumblee II, Clemson University; Aaron S. Gordon, Clemson University; Khushikumari Patel, Clemson University

Tagged Divisions

Multidisciplinary Engineering

ofTechnology requires student to complete a three hour course during each of their first twosemesters [16]. In addition, Miami University has a zero-credit hour course entitled GrandChallenge Scholars Experience, which has requirements such as attending seminars,presentations of other Scholar’s research, and completion of reflections and progress reports[17]. Lafayette College has scholars enroll in a quarter hour credit class during each semesterthey are working on their research competency [11]. The University of Toronto, while outside ofthe United States, is part of NAE GCSP and requires a Grand Challenge specific course for theInterdisciplinary Curriculum component called the Interdisciplinary Approach to Addressing theGrand Challenges [18

Conference Session

Experiential Learning Initiatives

Collection

2017 ASEE Annual Conference & Exposition

Authors

Lei Miao, Middle Tennessee State University; Jamshid E Farzidayeri, Middle Tennessee State University; Walter Boles; Ahad S. Nasab P.E., Middle Tennessee State University

Tagged Divisions

Multidisciplinary Engineering

and the learningobjectives; in Section 3, we explain the methodologies we used to facilitate project-basedlearning and to encourage team work; in Section 4, we present the design of the winning team; inSection 5, we discuss the results of the Bocce game and the assessment of the learningobjectives; a reflective discussion is provided in Section 6; finally, we conclude in Section 7.2. Project description and learning objectivesThe project requires students to build Raspberry Pi controlled autonomous robots with thecapability of playing indoor Bocce game. The jack or pallino of the Bocce game is a wirelessrouter which is at a fixed location. The goal of the robot is to get as close to the jack as possiblewithin certain time interval and not

Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Malinda S. Zarske, University of Colorado, Boulder; Lauren A. Rockenbaugh, University of Colorado, Boulder; Daria A. Kotys-Schwartz, University of Colorado, Boulder; Derek T. Reamon, University of Colorado, Boulder

Tagged Divisions

Multidisciplinary Engineering

(cost less than one day‟s pay at minimum wage to create or maintain), and the purpose of theinnovative products is to improve customers‟ quality of life or enable a higher standard of livingfor targeted local communities. Teams develop an initial design for review and critique by therest of the organization as well as the client, and work with the client to see the product throughto completion and installation. Some of the professional skills EFAC members practice include:the ability to identify the needs of a community client, the ability to present ideas to a non-technical audience, and the ability to work with people who are not engineers.EFAC‟s core team reflects its multidisciplinary objective and currently consists of twelveundergraduate

Conference Session

Assessment and Impact

Collection

2012 ASEE Annual Conference & Exposition

Authors

Mary Raber, Michigan Technological University; Susan L. Amato-Henderson, Michigan Technological University

Tagged Divisions

Multidisciplinary Engineering

communication skills), accounted for11.49% of the variance.A similar factor analysis procedure conducted with only Senior Design students resulted in thesame factor components and structure; therefore, mean factors scores were also calculated forSenior Design students on each of the 4 factors. Because Senior Design students were all 4th or5th year students (while Enterprise participants included freshman through seniors), differencesin factor scores between Senior Design and Enterprise students (seniors only) were examinedwith ANOVA. Table 1 provides the mean factor scores for senior-standing Enterprise andSenior Design students across the four factors (6 point scale, ranging from -3 to +3, withnegative numbers reflecting disagreement that program

Conference Session

Micro-Technology and Nanotechnology

Collection

2013 ASEE Annual Conference & Exposition

Authors

Hisham Hegab P.E., Louisiana Tech University; James D Palmer, Louisiana Tech University

Tagged Divisions

Multidisciplinary Engineering

credit hours of approved humanities, arts, and social science courses.An additional six credit hours including an additional English course and a speech course arerequired. NSE students are required to take a technical writing course and technical presentationscourse to satisfy this requirement.Assessment and Continuous Improvement of the ProgramSince the initial establishment of the degree program, the program education objectives haveundergone multiple revisions to better reflect the needs of the program’s constituents as well asmeet refinements in ABET’s definition of program educational objectives. The current ProgramEducation Objectives (PEOs) of the NSE degree program are:Graduates of the NSE Program are expected to within a few year of

Conference Session

Multidisciplinary Technical Session

Collection

2011 ASEE Annual Conference & Exposition

Authors

Scott P. Schaffer, Purdue University; Margaret Huyck, Illinois Institute of Technology; William C. Oakes, Purdue University, West Lafayette; Daniel Gandara, Illinois Institute of Technology

Tagged Divisions

Multidisciplinary Engineering

. making their understanding of share knowledge, adapt to team goals explicit. challenges, discuss how to solve problems. Identifying strengths, needs, and Individuals write, share, and Individuals develop their expectations for the project and reflect on their knowledge, skills, cognitive, behavioral, and course. and abilities with other team attitudinal competencies for members. team learning. Tasks are aligned with the

Conference Session

Sustainability, Service Learning, and Entreprenuership

Collection

2010 Annual Conference & Exposition

Authors

Shekar Viswanathan, National University, San Diego; Howard Evans, National University, San Diego

Tagged Divisions

Multidisciplinary Engineering

a Photovoltaic cell manufacturer • Energy consultant of a center focused on sustainable energy practicesIt is clear that to achieve the above mentioned PLOs, the curricula should be trans-disciplinary. It can be achieved through the integration of basic fundamental conceptsalong with application concepts. It was felt that such an appropriate mix of trans-disciplinary content can be accomplished by bringing together viewpoints fromexperienced academics and also from expert practitioners from outside academia. Thetrans-disciplinary result is reflected in the nature of the program courses listed below.SEM 601. Introduction to SustainabilitySEM 602. Enterprise ExcellenceSEM 603. Sustainable InnovationSEM 604. Life Cycle and Risk

Conference Session

Sustainability

Collection

2014 ASEE Annual Conference & Exposition

Authors

Julia M. Williams, Rose-Hulman Institute of Technology; Caroline Carvill, Rose-Hulman Institute of Technology; Richard A. House, Rose-Hulman Institute of Technology; Jessica Livingston, Rose-Hulman Institute of Technology; Anneliese Watt, Rose-Hulman Institute of Technology

Tagged Divisions

Liberal Education/Engineering & Society, Multidisciplinary Engineering

content andtechnical content together in ways that are manageable by faculty who are not engineers. Thecourse in professional and technical writing at our college is required of all engineering andcomputer science majors and is usually taken in the junior year. The course has undergone manytransformations in content and focus since it was first developed in 1994. The latest iterationblends communication principles with technical projects that can bridge the divide and helpstudents see how the two fields are intricately intertwined in the engineering workplace.This paper reflects on the work-in-progress at Rose-Hulman focused on helping our studentsdevelop their communication skills in technical contexts. Currently five faculty are

Conference Session

Multidisciplinary Course Innovation

Collection

2006 Annual Conference & Exposition

Authors

David Baca, University of Missouri-Rolla; Steve Watkins, University of Missouri-Rolla; Ray Luechtefeld, University of Missouri-Rolla

Tagged Divisions

Multidisciplinary Engineering

part of the Smart Materialsand Sensors course. Half of the students were given Traditional training17 which covered topicssuggested as essential for teams while the others received Mutual Learning training18. The first Mutual Learning Model training session illustrated to the students the differencebetween specific, observable data and higher levels of abstraction that are reflected in everydaythinking. Figure 1 shows an excerpt from the team training. An individual homework exercise is included as part of the training to reinforce theconcepts. Students are encouraged to use conversations from team meetings to help themdirectly apply the Mutual Learning Model to their team interaction. Assignment Write down two or

Conference Session

Capstone and International Experiences

Collection

2012 ASEE Annual Conference & Exposition

Authors

Richard S. Stansbury, Embry-Riddle Aeronautical University, Daytona Beach; William C. Barott, Embry-Riddle Aeronautical University, Daytona Beach; Salamah Salamah, Embry-Riddle Aeronautical University, Daytona Beach

Tagged Divisions

Multidisciplinary Engineering

distributed to each team member. 4. Students have a standup meeting to plan out development and integration. 5. Students work using side-by-side development to build the solution. 6. Students frequently integrate and test the developed components. 7. Students demonstrate the completed work to the customer who provides feedback. 8. The students have a reflection meeting to identify what process issues were encountered, what process elements were useful and worth keeping, and what possible solutions exist to ensure the team performs better on future iterations.Description of Mini-ProjectsThe mini-project sequence consists of three consecutive two-week modules. These modules aredesigned as a guided sequence for the design of a hand

Conference Session

Multidisciplinary First-year Experiences

Collection

2015 ASEE Annual Conference & Exposition

Authors

Lizabeth T. Schlemer, California Polytechnic State University; Kylie Hensley, SUSTAIN SLO; Rachel Pittman; Jada Golland, SUSTAIN SLO

Tagged Divisions

Multidisciplinary Engineering

how the student narratives spoke to these two questions: 1)How is SUSTAIN different than the traditional course experience? and 2) How did SUSTAINaffect you?In their interviews, students reported that SUSTAIN SLO was different than traditionalexperiences as it included 1) open assignments and structure, 2) a new look at education andlearning, 3) different relationship with faculty and peers, 4) a recognition of the importance ofspace to be yourself, and 5) significant collaboration and team building. As for the impact ofthese differences, students reported 1) increased capacity for personal reflection, 2) a new senseof ownership in education, 3) a discovery of internal motivation and the joy of learning, and 4)deepened friendships that led to

Conference Session

Multidisciplinary Engineering Experiences

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Madeline Nelson, University of San Diego; Gordon D. Hoople, University of San Diego; Joel Alejandro Mejia, University of San Diego; Diana A. Chen, University of San Diego; Susan M. Lord, University of San Diego

Tagged Divisions

Multidisciplinary Engineering

learning more about?” Percentages reflect an aggregate of responses in threecategories: not at all/ somewhat disinterested, neutral, and somewhat/ very interested. Senior StudentsFigure 2. Senior student responses (n=46) to the question “What sources of energy are youinterested in learning more about?” Percentages reflect an aggregate of responses in threecategories: not at all/ somewhat disinterested, neutral, and somewhat/ very interested.Figure 3. A box-and-whisker plot illustrating composite scores indicating student interest infossil fuels and renewable energy. A score of 5 corresponds to very interested, while a score of2.5 aligns with neutral. (The box encompasses the median of the first

Conference Session

Multidisciplinary Engineering Courses

Collection

2019 ASEE Annual Conference & Exposition

Authors

James Burns, Western Michigan University; Megan Hammond, Western Michigan University

Tagged Topics

Diversity

Tagged Divisions

Multidisciplinary Engineering

the software on exams). Generalcomments about the lecture also reflected that too much material is being covered, the lectureperiods feel rushed, and therefore the exam periods seem too short.Constraints, Challenges, OpportunitiesSome comments from the above section reflect some expected frustrations given the nature ofteaching statistics in a multidisciplinary environment [4]. The breadth of topics covered makes itnecessary to move quickly during lectures and the diversity of the student population makes itdifficult to design examples that will be relevant to all engineering disciplines. There alsoappears to be a lack of engagement with the topic of statistics itself that may stem simply fromthe growth of the lecture sections over the years

Conference Session

Multidisciplinary Design Constituents

Collection

2009 Annual Conference & Exposition

Authors

James Farison, Baylor University; Zhuocheng Yang, Baylor University

Tagged Divisions

Multidisciplinary Engineering

evaluators needed changes each year and with each accreditation cycle, as illustrated bythe data presented here in comparison with that of papers from the previous years of ASEE’snew accreditation role.12,13,14 Based on the current listing from the ABET website4 as compiledin Table 2, Table 3 gives the number of institutions and the numbers of multidisciplinaryengineering program accreditation visits implied for the six-year accreditation cycle from 2008-09 through 2013-14. Clearly, there is a wide variation reflected by those data in the anticipatedworkload from year to year, ranging from five programs at five institutions in 2008-09 to 20programs at 20 institutions in 2011-12. In addition to the numbers of visits over that six-yearcycle indicated

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

VALUERubric with the following elements: (i) connections to experience, (ii) connections to discipline,(iii) transfer, (iv) integrated communication, and (v) reflection and self-assessment. Followingdescriptions of the four approaches, the authors will offer criteria to compare assessmentinstruments for integrative thinking to assist other researchers in identifying most appropriatetools for assessing such skills in their curricula or programs.Keywords: integrative thinking, interdisciplinary understanding, multidisciplinary teams,assessment instrument, quality workIntroductionEngineering graduates are expected to address complex global challenges (National Academy ofEngineering, 2004) which require integrative thinking—the ability to assimilate

Conference Session

Multidisciplinary Engineering Design I

Collection

2019 ASEE Annual Conference & Exposition

Authors

Breanna M. W. Bailey, Texas A&M University-Kingsville

Tagged Divisions

Multidisciplinary Engineering

design project in only one senior design course; two of these programs had earlier courses in the senior design sequence that contained valuable information necessary for students’ professional success (see Table 1). Therefore, to enhance the usability of the course for all majors, the specific sequence of course substitution was added into the course description for the GEEN courses, as well as reflected on the college-wide form required for students to participate in the GEEN courses. This level of specificity was required to insure buy-in from all departments.Once the senior design faculty members were satisfied with respect to the intended content andstructure of the course, the proposal moved to a series

Conference Session

Multidisciplinary and Liberal Education

Collection

2007 Annual Conference & Exposition

Authors

April Kedrowicz, University of Utah; Bob Nelson, University of Utah

Tagged Divisions

Multidisciplinary Engineering

instruction. Finally, faculty members’ reflect on theirexperience working as part of a multidisciplinary team and offer recommendations forimplementation.BackgroundThe field of engineering demands collaboration to solve today’s complex problems. Gone are thedays of working alone in a lab. Today’s engineer needs to be able to function as a productiveteam member, and to accomplish this objective, the engineer needs to be a competentcommunicator. As a result, much of the focus of communication instruction within theengineering disciplines emphasizes effective informal communication within teams. In fact, agreater focus has been placed on “teaming” in the engineering education literature.Engineering teaming research, in general, encompasses the following

Conference Session

Multidisciplinary Curriculum Innovation

Collection

2008 Annual Conference & Exposition

Authors

Ronald Kander, James Madison University

Tagged Divisions

Multidisciplinary Engineering

Academy of Engineering (NAE), “The Engineer of2020” (1) and “Educating the Engineer of 2020” (2), were important resources. These reports,prepared by industry and academic leaders in engineering, are the result of an NAE initiative thatattempts to prepare for the future of engineering education by addressing questions such as: (1)• What will or should engineering be like in 2020?• Will it be a reflection of the engineering of today and its past growth patterns or will it be fundamentally different?• Can the engineering profession play a role in shaping its own future?• Can a future be created where engineering has a broadly recognized image that celebrates the exciting roles that engineering and engineers play in addressing societal

Conference Session

Integrating Art, Humanities, and Engineering

Collection

2013 ASEE Annual Conference & Exposition

Authors

John J. Marshall PhD, University of Michigan

Tagged Divisions

Multidisciplinary Engineering

of traditional disciplinary structures withinuniversities in the context of broader social, technological and economic contexts, arguing for amode of knowledge production that is context-driven, problem-focused and interdisciplinary.3They argue that this newly emerging mode reflects the need to accomplish tasks at theboundaries and in the spaces between different communities.4 This new mode has brought abouta need for increased collaboration, integrative problem solving, and the development of newhybrid fields. The Association of American Colleges and Universities have argued thatuniversities need to change their practices to develop students as “...integrative thinkers who cansee connections in seemingly disparate information and draw on a

Conference Session

Understanding and Measuring the Impact of Multidisciplinarity

Collection

2010 Annual Conference & Exposition

Authors

Eli Patten, University of California at Berkeley; Sara Atwood, University of California, Berkeley; Lisa Pruitt, University of California, Berkeley

Tagged Divisions

Multidisciplinary Engineering

identified these skills as criteria 3d and3g. Particularly in multidisciplinary fields, engineers have different motivations, technicalbackgrounds, and ways of learning. In the undergraduate classroom, students can develop skillsto communicate with their multidisciplinary team members and other audiences by taking intoaccount the variety of learning styles and backgrounds. Felder et. al.1 developed a classificationof learning styles in which individuals’ natural tendencies fall on a continuum in four categories:visual-verbal, sensing-intuitive, global-sequential, and active-reflective. We used this learningstyle classification as a framework to incorporate teamwork and professional development into amultidisciplinary course.Structural Aspects of

Conference Session

Design in Multidisciplinary Learning Environment

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Amy Dunford, NYU Tandon School of Engineering; Edwing A. Medina, New York University Tandon School of Engineering; Jack Bringardner, New York University Tandon School of Engineering

Tagged Divisions

Multidisciplinary Engineering

experienceshas been investigated with respect to student demographics, and it was found that students’participation and engagement on a design competition team may be influenced by gender andrace/ethnicity [3], [4].The type of cooperative learning evident on VIP Teams over multiple semesters promotes“constructive socialization” [5]-[7] that helps students establish and develop their leadershiproles within their project group. The establishment and development of leadership roles arefacilitated by the criteria that Johnson and Johnson [5], [8]-[12] use to characterize cooperativelearning: (1) Positive interdependence; (2) Individual accountability; (3) Heterogeneity; (4)Dispersed leadership; (5) Developing social skills; and (6) Reflection. The third