Conference Session

Design in Biomedical Engineering (Works in Progress) - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Michael A. Phelan, Temple University; Aratrik Guha; Brandon K. Harrison, Temple University; George Moukarzel, Temple University; Abigail A. Tetteh; Yah-el Har-El, Temple University; Ruth Ochia P.E., Temple University

Tagged Divisions

Biomedical Engineering

, requires programs to evaluate students’ “ability to applyengineering design to produce solutions that meet specified needs…” (ABET EAC 2019-2020SO 2). This major design experience, typically a senior capstone project, should include theculmination of the foundational materials students learn during their course of study. ABET hasalso defined “engineering design” which includes many concepts of Design Thinking (DT). DTis a multistep process that begins with the formalization of the problem statement and movesthrough implementation of possible solutions with the needs of the end-user in mind. There areseveral ‘flavors’ of design thinking available and we have been following the 5-step designthinking process described by Plattner 2010 where the

Conference Session

Biomedical Division Poster Session

Collection

2018 ASEE Annual Conference & Exposition

Authors

Samuel Elliot Krause, Helping Hand Project; Jeff Powell, Helping Hand Project; Richard Goldberg, University of North Carolina, Chapel Hill

Tagged Divisions

Biomedical Engineering

Paper ID #22922Work in Progress: Prosthetic Design Cases as an Educational Tool In andOut of the ClassroomMr. Samuel Elliot Krause, Helping Hand Project Senior studying BME in the UNC & NCSU Joint Department of Biomedical Engineering. Project man- ager for the Helping Hand Project, a non-profit that builds custom prosthetic devices for children with amputations.Mr. Jeff Powell, The Helping Hand Project Jeff Powell is a graduate student at UNC-Charlotte studying Biological Sciences. He is a graduate of UNC-Chapel Hill’s Biomedical Engineering program. As a student at UNC-CH, Jeff started The Helping Hand Project, a

Conference Session

Design in Biomedical Engineering (Works in Progress) - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Olga Imas, Milwaukee School of Engineering; Jeffrey A. LaMack, Milwaukee School of Engineering; Icaro Dos Santos, Milwaukee School of Engineering; Larry Fennigkoh P.E., Milwaukee School of Engineering; Charles S. Tritt, Milwaukee School of Engineering

Tagged Divisions

Biomedical Engineering

immersion and educationalexperiences that simulate a real-world industrial design process and encourage creativity,innovation and teamwork [2-5].In line with modern practices, our program’s design sequence focuses on system engineering,and includes key design phases of project definition, system-level design, prototypedevelopment, and verification and validation. In the most recent revision, we restructured ourdesign curriculum to ensure better continuity of design topics, to facilitate collaborative projectswith industry partners, and to alleviate various academic challenges noted by faculty andindicated by students in the course evaluation questionnaires. To this end, we reduced theduration of the capstone design sequence by three academic

Conference Session

Intro to Biomedical Engineering and Vertically Integrated Curriculum (Works in Progress) - June 23rd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Amber L. Doiron, University of Vermont; Jason H.T. Bates, University of Vermont; Ryan S. McGinnis, University of Vermont; Juan Jose Uriarte, University of Vermont; Niccolo M. Fiorentino, University of Vermont; Jeff Frolik, University of Vermont; Rachael A Oldinski

Tagged Divisions

Biomedical Engineering

BME capstone design course. BMECore 1 will comprise biomechanics, instrumentation, and sensors; BME Core 2 will comprisebiophysics, biomaterials, and transport; and BME Core 3 will comprise modeling biologicalsystems and signals. BME Design course 0 will provide the fundamentals of the design processand engage students with small team-based design projects motivated by the clinical needs ofcolleagues in our adjacent medical school. Design courses 1 and 2 will cover regulatorystandards and validation testing, respectively. BME Design 3 will consist of small-scale, team-based collaborations to aid in the transition into Capstone Design, which is required during the4th year. An elective second capstone semester will focus on commercialization of

Conference Session

Biomedical Engineering Postcard Session (Best of Works in Progress)

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Christine E. King, University of California, Irvine; George Tolomiczenko, Caltech; Nadine B. Afari, CHOC Children's Health Orange County

Tagged Divisions

Biomedical Engineering

event with engineering and computerscience undergraduate students can identify and develop potential innovations and seniorcapstone project opportunities during the COVID-19 pandemic. It was found that the hackathoncan be a robust opportunity for interprofessional education and collaboration among healthcareworkers and students. Although no teams pursued their project in the biomedical engineeringsenior capstone course, several teams pursued their projects in the information and computerscience capstone course. This is likely due to the outside industry sponsored projects that are alsooffered by the biomedical engineering capstone course. Furthermore, one limitation of the studyis that it does not describe the long-term effects of the hackathon

Conference Session

Biomedical Engineering Curriculum and Design - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Steven Higbee, Indiana University Purdue University, Indianapolis; Sharon Miller, Indiana University Purdue University, Indianapolis

Tagged Divisions

Biomedical Engineering

Continually Challenged with Integrated Design ProjectsAbstractIntroduction: The undergraduate biomedical engineering (BME) curriculum should preparestudents to confidently approach complex problems, as graduates will enter the workforce in anenvironment of rising healthcare costs, decreasing average life expectancy, and significantsocioeconomic disparities in health outcomes. With this landscape, solutions to contemporaryproblems will require innovative thinking and groundbreaking medical technologies, suggestingthat the future of BME will be increasingly design-oriented. BME curricula generally includelaboratory and project components aimed at preparing students for senior capstone; however,students may begin capstone

Conference Session

Biomedical Engineering Curriculum and Design - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Kelsey Nicole Warren, Kansas State University; Charles Carlson, Kansas State University; Steve Warren, Kansas State University

Tagged Divisions

Biomedical Engineering

number of projects fall within the “sensors anddevices” area. Additionally, biomedical instrumentation has been an area of study for so long(e.g., when compared to a relatively new area such as tissue engineering) that a greater relativeweight in terms of the number of educational sensors and devices efforts is not surprising.Target students range in age from high school students (e.g., who attended summercourses/camps) up to seniors in college engaged in capstone design efforts. A large number ofpapers cited in the literature review were geared toward sophomore-to-senior-level students,whereas fewer were aimed at freshmen and high school students. This result may have beeninfluenced by the fact that many freshmen and high school courses attempt

Conference Session

Intro to Biomedical Engineering and Vertically Integrated Curriculum (Works in Progress) - June 23rd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Ross Aaron Petrella, University of North Carolina and North Carolina State University Joint Department of Biomedical Engineering; Lianne Cartee, University of North Carolina and North Carolina State University Joint Department of Biomedical Engineering; Devin K. Hubbard, University of North Carolina and North Carolina State University Joint Department of Biomedical Engineering; Kenneth Donnelly, University of North Carolina at Chapel Hill; David A. Zaharoff, University of North Carolina and North Carolina State University Joint Department of Biomedical Engineering; George T. Ligler, University of North Carolina and North Carolina State University Joint Department of Biomedical Engineering

Tagged Divisions

Biomedical Engineering

Design Curriculum. He holds a B.S. degree in Mathematics from Furman University and M.Sc. and D.Phil. degrees in Mathematics–Computation from the University of Oxford, where his studies were supported by a Rhodes Scholarship. c American Society for Engineering Education, 2020 Work in Progress: A Vertically Integrated Design Program Using Peer EducationIntroduction A yearlong capstone project for fourth year undergraduate biomedical engineering studentsis often put forward as the model for engaged, experiential learning [2, 3]. However, preparingstudents to undertake the breadth of such a project is often overlooked. In most undergraduateengineering curricula, there

Conference Session

Biomedical Engineers and Professional Development - June 23rd

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Jeffrey A. LaMack, Milwaukee School of Engineering; Icaro dos Santos, Milwaukee School of Engineering; Larry Fennigkoh P.E., Milwaukee School of Engineering; Olga Imas, Milwaukee School of Engineering; Charles S. Tritt, Milwaukee School of Engineering

Tagged Divisions

Biomedical Engineering

of topics such as regulatory affairs [1] and engineeringstandards [2]. Although the combination of technical and “soft skills” can be an importantdistinguishing characteristic of biomedical engineers in industry, it is challenging to effectivelyteach students professional topics in an undergraduate biomedical engineering curriculum thatalso attempts to cover the breadth of engineering and life science topics that is the hallmark ofthe discipline.Recognizing the importance of professional topics, students are often required to implementthem in their culminating capstone design project. A common approach is to teach the topics inthe capstone design courses themselves, often by providing didactic sessions covering each topicjust before students

Conference Session

Design in Biomedical Engineering (Works in Progress) - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Collin W. Shale, Johns Hopkins University; Shababa Binte Matin, Johns Hopkins University; Nicholas J. Durr, Johns Hopkins University; Elizabeth A. Logsdon, Johns Hopkins University

Tagged Divisions

Biomedical Engineering

Paper ID #30608Inclusion of Industry Professional Experts in biomedical engineeringdesign courses at-scaleCollin W Shale, Johns Hopkins University Collin Shale is a junior lecturer with the Department of Biomedical Engineering at Johns Hopkins Uni- versity. Collin received his bachelor’s degree in biomedical engineering from Marquette University, and he received his master’s degree in bioengineering innovation and design from Johns Hopkins University, where he worked on projects relating to infection prevention for intravenous infusion and tuberculosis di- agnostics. Collin is an instructor for the capstone

Conference Session

Biomedical Engineering Division Poster Session

Collection

2019 ASEE Annual Conference & Exposition

Authors

Jorge E. Bohorquez, University of Miami; Ramón Benjamin Montero, University of Miami

Tagged Divisions

Biomedical Engineering

Miami Dr. Montero is an Assistant Professor in Professional Practice in the Department of Biomedical Engi- neering under the College of Engineering at the University of Miami. Dr. Montero has over a decade of experience in scaffold fabrication techniques for tissue engineering applications particularly with the electrospinning and bioprinting processes. He has worked in the private sector managing animal labora- tories as well as R&D projects for various private companies and start-ups. Currently, Dr. Montero is part of the faculty team managing all senior design capstone projects. c American Society for Engineering Education, 2019 Work in Progress - Introduction to Design Thinking and

Conference Session

Biomedical Division Postcard Session

Collection

2019 ASEE Annual Conference & Exposition

Authors

Steven Higbee, Indiana University Purdue University, Indianapolis; Sharon Miller, Indiana University Purdue University, Indianapolis

Tagged Divisions

Biomedical Engineering

whether intentional, verticalalignment of engineering experiences ultimately better prepares BME undergraduates for theirsenior design capstone projects and their professional pursuits.IntroductionInductive teaching methods have encouraged higher levels of student cognition [1]-[2], improvedstudent teamwork and communication [3], and allowed increased student confidence duringengineering design prototyping [4]. Paired with a resurgence of hands-on learning in theengineering community [5], inductive teaching methods allow instructors to incorporate realproblems that require physical prototype solutions. Our work aims to incorporate one specificinductive teaching method, project based learning (PBL), into sophomore and junior levelBiomedical

Conference Session

Biomedical Engineering Division Poster Session

Collection

2019 ASEE Annual Conference & Exposition

Authors

Olga Imas, Milwaukee School of Engineering; Jeffrey A. Lamack, Milwaukee School of Engineering; Larry Fennigkoh P.E., Milwaukee School of Engineering

Tagged Divisions

Biomedical Engineering

same time as the second capstone designcourse in which the students continue assessing the feasibility of their design projects, developtheir functional design specifications and work toward system-level designs. Thus, the deviceevaluation course complements the design process topics with those of regulation and deviceevaluation and allows for course assignments specific to the students’ design projects. Thecourse is offered two quarters after the Professional Topics in Biomedical Engineering courseand builds upon other professional BME topics such as intellectual property, engineeringstandards, design for manufacturing, healthcare economics, globalization of medical devices,ethics in medical device development, documentation, and user

Conference Session

Biomedical Division Postcard Session

Collection

2019 ASEE Annual Conference & Exposition

Authors

Jeffrey A. LaMack, Milwaukee School of Engineering; Larry Fennigkoh P.E., Milwaukee School of Engineering; Paul Licato, Milwaukee School of Engineering

Tagged Divisions

Biomedical Engineering

shouldbe given a comprehensive introduction to standards, gain familiarity with key standardsorganizations in their respective disciplines, study standards in the context of relevant casestudies, and graduate with the ability to identify and apply relevant standards in the engineeringdesign process [6]. These recommendations are consistent with those from a more recent paneldiscussion on standards education at the Capstone Design Conference in 2012, which furtherrecognized that, to help achieve the desired proficiency of students to apply standardsappropriately in their capstone design project, standards education should start earlier in thecurriculum [7].Several barriers to effective teaching of standards in engineering curricula have been cited

Conference Session

Design in Biomedical Engineering (Works in Progress) - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Erica M. Comber, Carnegie Mellon University; Elisha Anthony Raeker-Jordan, Carnegie Mellon University; Kalliope Georgette Roberts, Carnegie Mellon University; Melanie Alexis Loppnow, Carnegie Mellon University; Andrew Hudson, Carnegie Mellon University; Wayne Chung, Carnegie Mellon University; Conrad M. Zapanta, Carnegie Mellon University

Tagged Divisions

Biomedical Engineering

addresses healthcare challenges and achieves the following:Objective 1: Leverages curriculum-acquired knowledge of both engineer and ID studentsObjective 2: Mimics the communication dynamic within the medical device industryMaterials and Methods: This year (2019-2020), the capstone course incorporated ID-centeredassignments on behalf of objective 1 and restructured project teams to consist of engineering andindustrial design subteams for objective 2. During the 2018-2019 and 2019-2020 academic years,4 and 6 industrial designers enrolled to work with ~50 BME students on 4 and 6 projectsrespectively. Engineering students’ team assignments both academic years were generated usingthe Comprehensive Assessment for Team-Member Effectiveness (CATME) system

Conference Session

Biomedical Division Poster Session

Collection

2018 ASEE Annual Conference & Exposition

Authors

Todd Freeborn, University of Alabama; Memorie Gosa, University of Alabama

Tagged Divisions

Biomedical Engineering

guiding questions tostructure the sessions; and (iv) including multiple sessions with the same clients over time toobserve changes that may result from the therapies.Capstone Projects: Future iterations of this program will task students with identifying clinicalneeds from their shadowing experiences, propose a possible solution, and encourage them topursue those solutions during their own Capstone Design courses. Capstone design projects areubiquitous in engineering education, aimed at promoting practical and real-world projects duringan undergraduate’s education [7], [8]. The pairing of this shadowing experience with CapstoneDesign is expected to increase student engagement and satisfaction; supported by results fromprevious clinical immersions

Conference Session

Biomedical Division Poster Session

Collection

2018 ASEE Annual Conference & Exposition

Authors

Olga Imas, Milwaukee School of Engineering; Jeffrey A. Lamack, Milwaukee School of Engineering; Charles S. Tritt, Milwaukee School of Engineering; Larry Fennigkoh P.E., Milwaukee School of Engineering; Icaro Dos Santos, Milwaukee School of Engineering

Tagged Divisions

Biomedical Engineering

for Medical and Biological Engineering, and the American College of Clinical Engineering.Dr. Icaro Dos Santos Dos Santos, Milwaukee School of Engineering c American Society for Engineering Education, 2018Work-In-Progress: Streamlining Biomedical Engineering Design ProcessThe Accreditation Board for Engineering Technology (ABET) Criterion 5 states that an ABET-accredited undergraduate engineering program must incorporate a capstone design process tobetter prepare its graduates for various engineering careers [1]. The most common pedagogicalapproaches to teaching design focus on a Problem-Based Learning and are centered around aspecific problem to be addressed, and include general capstone courses covering

Conference Session

Biomedical Division Poster Session

Collection

2018 ASEE Annual Conference & Exposition

Authors

Jeannie S. Stephens, University of Delaware; Sarah Ilkhanipour Rooney, University of Delaware

Tagged Topics

Diversity

Tagged Divisions

Biomedical Engineering

and associate director of BME’s undergraduate program. In this role, she will strengthen the department’s connection with the local medical community, both in clinical and industrial settings, in order to foster undergraduate design projects as well as internship and employment opportunities for our students.Dr. Sarah Ilkhanipour Rooney, University of Delaware Sarah I. Rooney is an Assistant Professor and Director of the Undergraduate Program in the Biomedical Engineering department at the University of Delaware, where she seeks to bring evidence-based teaching practices to the undergraduate curriculum. She received her B.S.E. (2009) and M.S.E. (2010) in Biomed- ical Engineering from the University of Michigan (Ann

Conference Session

Biomedical Division Poster Session

Collection

2018 ASEE Annual Conference & Exposition

Authors

Patricia A. Meyers, American International College; Judy L. Cezeaux, Western New England University

Tagged Divisions

Biomedical Engineering

experienceencouraging transformative learning. The students explain the purpose, rationale, potential targetpopulation as well as demonstrate their prototype. The summer following the completion of thisintroductory assistive technology course, faculty members in occupational therapy andengineering meet to discuss which projects are best suited for further development.Occupational therapy students who have expressed an interest and whose projects have thepotential for universal design, pitch their AT device to student engineering teams. Thebiomedical engineering students are either in the first semester of their capstone design course orin a product development course. Not all occupational therapy AT projects presented to theengineering design teams are chosen

Conference Session

Clinical Learning Experiences in BME

Collection

2018 ASEE Annual Conference & Exposition

Authors

Barbara Jean Muller-Borer, East Carolina University; Stephanie M. George, East Carolina University

Tagged Divisions

Biomedical Engineering

multidisciplinary collaborative research projects, capstone and honors projects, andpotential entrepreneurial initiatives. Follow-up information is collected to track oral/posterpresentations, published manuscripts and patent applications resulting from course projects.4. RESULTS AND DISCUSSIONEight engineering students enrolled in the course in spring 2016 and six in 2017. The engineeringstudents included students from the biomedical engineering, mechanical engineering, andindustrial systems concentrations. In 2017, 3 teams of engineering students partnered with 12students from the entrepreneurship course in the College of Business (4 per team). Studentsreported spending an average of 6.3 ± 2.4 hours per week outside of class and clinic, preparing

Conference Session

Big Picture Questions in BME

Collection

2019 ASEE Annual Conference & Exposition

Authors

Sarah Ilkhanipour Rooney, University of Delaware; Jeannie S. Stephens-Epps, Terumo Medical Corporation

Tagged Divisions

Biomedical Engineering

transfer thisknowledge and apply it to a new project in Senior Design. These findings support theeducational practice of “spacing” [18] and repetition. Furthermore, although statistical analysiscould not be performed, we did measure a greater percentage of teams that incorporated ISO10993 as design criteria justification in phase 1 of Senior Design when they had taken Cell &Tissue Lab (which includes ISO 10993-5 as a lab procedure) compared to when they had not(28% vs. 16%).In many engineering undergraduate curricula, capstone may be the only time that a studentengages with engineering standards (our Cohort 1); however, our data reveal the importance ofrepeated exposure throughout the curriculum. Prior to the implementation of the

Conference Session

Assessment of Student Learning and Skills

Collection

2019 ASEE Annual Conference & Exposition

Authors

Rachael Schmedlen, University of Michigan; Jin Woo Lee, University of Michigan; Prateek Shekhar, University of Michigan; Jan Stegemann, University of Michigan

Tagged Divisions

Biomedical Engineering

intersection of engineering and medicine,and thus fail to witness how critical thinking, problem solving, and interprofessionalcollaboration can improve healthcare.With support from the National Institutes of Health, we have created a Clinical Peer Mentors(CPM) immersion program for BME undergraduates to provide unique opportunities for studentsto interface with clinicians in their native environment, conduct clinical needs identification andassessment, and generate well defined capstone design projects. Moreover, CPMs share theirnewfound clinical knowledge to the broader BME student body by creating informationalmaterials and services, refining their leadership and communication skills in the process. Thisallows increased awareness of the clinical

Conference Session

Design in Biomedical Engineering (Works in Progress) - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Christopher Arena, Virginia Polytechnic Institute and State University; Elham Morshedzadeh, Virginia Polytechnic Institute and State University; John L. Robertson, Virginia Polytechnic Institute and State University; Andre Albert Muelenaer, Virginia Polytechnic Institute and State University; Brad D. Hendershot, DoD-VA Extremity Trauma and Amputation Center of Excellence, Walter Reed National Military Medical Center; Jessica L. O'Leary, Salem VA Medical Center; Aliza M. Lee, U.S. Department of Veterans Affairs; Devasmita Choudhury; Brandon C. Briggs; Pamela Jean VandeVord, Virginia Polytechnic Institute and State University

Tagged Divisions

Biomedical Engineering

academic partnerships between BME and ID. In 2006, a formalcollaboration was established between biomedical, electrical, mechanical, and computerengineering students from Marquette University (MU) and ID students from the MilwaukeeInstitute of Art and Design (MIAD) [3]. Mid-way through their one-year, multidisciplinary,capstone course, MU engineering students recruit MIAD students to further develop and refineconcepts. The MIAD students receive course credit and function as design consultants. Overall,the collaboration resulted in improved prototype functionality and aesthetics, and the studentsdeveloped an appreciation for each other’s discipline and role within the project team. There wasalso a desire among the students to work together from the

Conference Session

Design in the BME curriculum

Collection

2018 ASEE Annual Conference & Exposition

Authors

Timothy E. Allen, University of Virginia; David Chen, University of Virginia

Tagged Divisions

Biomedical Engineering

aspects of the design process, including iterativebrainstorming, hands-on prototyping & fabrication, CAD, materials, machining, assembly, andbasic microcontroller design. Seniors then complete a yearlong capstone sequence in which theypursue a client-mentored project and apply the skills they have developed in the prior courseswithin the curriculum [2]. All projects in the introductory design skills course and the vastmajority of projects in the capstone are client-sponsored, pre-identified problems or need areasthat the client pitched to potential teams, such that students who take these core design coursestypically do not have the opportunity to identify clinical or patient-centered needs as part of thecourse structure. However, a growing

Conference Session

Connecting BME education to the "real world"

Collection

2018 ASEE Annual Conference & Exposition

Authors

Joe Tranquillo, Bucknell University

Tagged Topics

Diversity

Tagged Divisions

Biomedical Engineering

themes in engineering have focused on sustainability, entrepreneurship, designthinking, internationalization and social justice (Murphy et al., 2009; Tranquillo 2013;Tranquillo 2017; UNESCO 2010). As improved health care intersects all of these trends,biomedical engineers are well suited to take on leadership roles. In parallel, pedagogicaltrends have moved toward design challenges, wicked problems, project-based learningand engagement with live case studies (Blumenfeld et al. 1991; Prince 2004; Omenn2006; Bell, 2010; Beaurey 2010; Mote et al, 2016). Biomedical engineering faculty havein fact led the way in developing many of these learning opportunities (Tranquillo andCavanagh 2009; Gimm 2011; Abby et al., 2013; Dolan 2013).This paper outlines

Conference Session

Biomedical Engineering Division Poster Session (Works in Progress)

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Loay A. W. Al-Zube, University of Mount Union; Chad S. Korach, University of Mount Union; Joshua Gargac, University of Mount Union

Tagged Divisions

Biomedical Engineering

depth and breadth in the subject area with significant flexibility in coursechoices enriched by the liberal arts. The new biomedical engineering curriculum consists of 130credit hours spanning a 4-year academic plan. The program curriculum consists of five integratedcourses in biomaterials and biomechanics, three integrated courses in medical instrumentation andimaging, one course in design and development, two elective courses, and two capstone designcourses, as well as courses in general engineering and basic sciences. Six biomedical engineeringcourses include laboratory components. A pre-med track is available for the students. The programis unique in that it shares a common first year with other engineering programs and that it mergeswith

Conference Session

Laboratory Learning in Biomedical Engineering (Works in Progress) - June 24th

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Scott Howard Seidman, University of Rochester

Tagged Divisions

Biomedical Engineering

need to learn embeddeddevelopment comes up repeatedly in the context of our capstone senior design experience, and hasresulted in the individual instruction of many students at our institution, over many years, often in theform of guided tutorials. While effective enough to support the capstone course, this approach does notexpose every student that wants to acquire this skill set with the opportunity to do so; such instruction islimited to those students that need to learn the skills to support a project. It also lacks the efficiency of aclassroom approach.Microcontroller skills can be acquired today without formal instruction. Students can learn much of thismaterial on their own through the “Maker Movement” [2], in which makers learn through

Conference Session

Biomedical Engineering Division Poster Session (Works in Progress)

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Tye D. Martin, University of New Mexico; Veronica Mitchell ; Heather E. Canavan, University of New Mexico

Tagged Topics

Diversity

Tagged Divisions

Biomedical Engineering

, “Capstone Design Projects: Helping The Disabled” Paper presented at 2002 Annual Conference, Montreal, Canada, 2002. 10.18260/1-2--104077. U.S. Department of Education, National Center for Education Statistics, Digest of Education Statistics, 2018 (2020-009), Chapter 3.8. National Science Foundation, National Center for Science and Engineering Statistics, “Women, Minorities, and Persons with Disabilities in Science and Engineering: 2017”, Digest Special Report, 2017.9. V. Mitchell, B., Matheson, T. Martin, P. Nguyen, V. Svihla, E. Chi, H. Canavan, “Diverse by Design: Increasing the Representation of People with Disabilities in STEM through Community Engagement”, Paper presented at 2020 Gulf Southwest Section Conference, 2020

Conference Session

Design in the BME curriculum

Collection

2018 ASEE Annual Conference & Exposition

Authors

Kay C. Dee, Rose-Hulman Institute of Technology; Patricia Brackin P.E., Rose-Hulman Institute of Technology; Anneliese Watt, Rose-Hulman Institute of Technology; Alan Chiu, Rose-Hulman Institute of Technology; Glen A. Livesay, Rose-Hulman Institute of Technology; Jay Patrick McCormack, Rose-Hulman Institute of Technology; Renee D. Rogge, Rose-Hulman Institute of Technology; Richard A. House, Rose-Hulman Institute of Technology

Tagged Topics

Diversity

Tagged Divisions

Biomedical Engineering

quarter. They wanted toimprove the users’ experience with added features. The remaining seven groups proposedprojects from a variety of areas: one group worked on an project for a third world country, onegroup looked at determining thyroid levels, one group developed a warning system for a facultymember’s research, one group looked at developing a device for physical therapy, one groupworked with an ME Capstone Design group, one group adapted a workout device for athletes,and one group developed a toy for college students.Students were required to write an in-depth proposal for their project. Their writing abilityshowed marked improvement along with their ability to express the social, environmental,economic, and ethical aspects of their

Conference Session

Active learning in BME, Session II

Collection

2018 ASEE Annual Conference & Exposition

Authors

Dianne Grayce Hendricks, University of Washington; Ken Yasuhara, University of Washington; Alyssa Catherine Taylor, University of Washington

Tagged Divisions

Biomedical Engineering

bioengineering, service learning, universal design, tissue and protein engineering labs, bioengineering ethics, leadership, and capstone proposal writing and design. She is committed to enhancing diversity and inclusivity in en- gineering, and creating opportunities for undergraduate students to engage in K-12 educational outreach. Dr. Hendricks has over a decade of experience leading educational outreach and summer camp programs at both Duke University and the University of Washington.Dr. Ken Yasuhara, University of Washington Ken Yasuhara is an instructional consultant and assistant director at the Office for the Advancement of Engineering Teaching & Learning (ET&L) at the University of Washington. He completed an