Displaying all 17 results
- Conference Session
- BME Curriculum Development
- Collection
- 2009 Annual Conference & Exposition
- Authors
- Aura Gimm, Duke University
- Tagged Divisions
- Biomedical
Bionanotechnology in Undergraduate Biomedical EngineeringAbstractAs a part of the NSF-funded Nanotechnology Undergraduate Education Program, we havedeveloped and implemented a new upper division elective course in Biomedical Engineeringtitled “Introduction to Bionanotechnology Engineering”. The pilot course included five hands-on “Nanolab” modules that guided students through specific aspects of nanomaterials andengineering design in addition to lecture topics such as scaling effects, quantum effects,electrical/optical properties at nanoscale, self-assembly, nanostructures, nanofabrication,biomotors, biological designing, biosensors, etc. Students also interacted with researcherscurrently working in the areas of
- Conference Session
- Laboratories and Projects in BME
- Collection
- 2011 ASEE Annual Conference & Exposition
- Authors
- John D. Gassert, Milwaukee School of Engineering; Jeffrey A. Lamack, Milwaukee School of Engineering; Olga Imas, Milwaukee School of Engineering; Larry Fennigkoh, Milwaukee School of Engineering; NE Schlick, Milwaukee School of Engineering; Charles S. Tritt, Milwaukee School of Engineering; Ron Gerrits, Milwaukee School of Engineering
- Tagged Divisions
- Biomedical
students the ability “tosolve the problems at the interface of engineering and biology” and “the ability to makemeasurements on and interpret data from living systems.”[1] Therefore, a good biomedicalengineer must have a solid understanding of mechanical, electrical, and computer engineeringfields, as well as biology, chemistry, and physiology, and must be able to combine and applyengineering and life science concepts to solve interdisciplinary problems in biomedicalengineering.In the course of its continuous improvement process, the BME faculty at the Milwaukee Schoolof Engineering (MSOE) redesigned its curriculum to introduce more team-basedinterdisciplinary learning. The faculty members believe the most innovative additions to thecurriculum are
- Conference Session
- BME Laboratory and Project Experiences
- Collection
- 2010 Annual Conference & Exposition
- Authors
- Pamela Bhatti, Georgia Institute of Technology; Jessica Falcone, Georgia Institute of Technology; James McClellan, Georgia Institute of Technology
- Tagged Divisions
- Biomedical
was a member of the research staff at M.I.T.'s Lincoln Laboratory. He then became a professor in the Electrical Engineering and Computer Science Department at M.I.T. In 1982, he joined Schlumberger Well Services where he worked on the application of 2-D spectral estimation to the processing of dispersive sonic waves, and the implementation of signal processing algorithms for dedicated high-speed array processors. He has been at Georgia Tech since 1987. Prof. McClellan is a Fellow of the IEEE and he received the ASSP Technical Achievement Award in 1987, and then the Signal Processing Society Award in 1996. Prof. McClellan is active in curriculum development for undergraduate education
- Conference Session
- BME Laboratories and Skills-Based Projects
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Shahin Sirouspour, McMaster University; Pawel Malysz, McMaster University; Ali Shahdi, McMaster University; Ryan Leslie, Quanser Inc; Mahyar Fotoohi, Quanser Inc; Paul Karam, Quanser Inc
- Tagged Divisions
- Biomedical
are beginningto create undergraduate programs in biomedical engineering and developing new curriculums tosupport such programs. Medical Robotics is a Level 4 compulsory course in McMasterUniversity’s new established Electrical and Biomedical Engineering program. This paperprovides an overview of a laboratory component which has been co-developed by McMasterUniversity and Quanser Consulting Inc. for this course. First, the motivations for introducing aMedical Robotics course into the Biomedical Engineering curriculum and the desired learningoutcomes pursued by the proposed laboratory experiments are discussed. These are followed bya brief introduction of the hardware/software system used in the lab as well as detaileddescriptions of four
- Conference Session
- Biomedical Engineering Division Poster Session
- Collection
- 2015 ASEE Annual Conference & Exposition
- Authors
- Chris Geiger, Florida Gulf Coast University; James D. Sweeney, Oregon State University
- Tagged Divisions
- Biomedical
of the School of Chemical, Biological and Environmental Engineering at Oregon State University. He received his Ph.D. and M.S. degrees in Biomedical Engi- neering from Case Western Reserve University in 1988 and 1983, respectively, and his Sc.B. Engineering degree (Biomedical Engineering) from Brown University in 1979. He is a Fellow of the American In- stitute for Medical and Biological Engineering, and a Senior Member of the Institute of Electrical and Electronics Engineers. Page 26.1755.1 c American Society for Engineering Education, 2015Work in Progress: “Mini Projects” - Using
- Conference Session
- Biomedical Division Poster Session
- Collection
- 2014 ASEE Annual Conference & Exposition
- Authors
- Martin T. Spang, Ohio State University; Aaron Strickland, Ohio State University; Deborah M. Grzybowski, Ohio State University
- Tagged Divisions
- Biomedical
experiences in both R&D and manufacturing roles, and continues as a curriculum development lead for the micro/nanotechnology project option for students in their second semester. He will be going into industry after the completion of his undergraduate program.Dr. Deborah M. Grzybowski, Ohio State University Dr. Grzybowski is a Professor of Practice in the Engineering Education Innovation Center and the Depart- ment of Chemical and Biomolecular Engineering at The Ohio State University. She received her Ph.D. in Biomedical Engineering and her B.S. and M.S. in Chemical Engineering from The Ohio State Uni- versity. Prior to becoming focused on engineering education, her research interests included regulation of
- Conference Session
- Biomedical Division Poster Session
- Collection
- 2016 ASEE Annual Conference & Exposition
- Authors
- Vladimir Genis, Drexel University (Eng. & Eng. Tech.); Lunal Khuon, Drexel University (Eng. Tech.)
- Tagged Divisions
- Biomedical
Degree will be able to work in avariety of medical facilities from doctor's offices to hospitals2. Specifically, they will beresponsible for problem solving, data interpretation, complex troubleshooting, preparation ofspecifications, scheduling, planning, analysis, project management, and decision making.BET CurriculumDrexel’s Engineering Technology undergraduate bachelor’s program consists of 187.5 totalquarter credits3. BET curriculum is based on ET core courses supplemented with a combinationof courses in biology, human factors, medical terminology, codes and regulations, medicalinstrumentation, and healthcare administration courses specific to the BET concentration, shownin red. Courses BET 301, BET 302, BET 303, and BET 305 have been
- Conference Session
- Biomedical Engineering Poster Session
- Collection
- 2013 ASEE Annual Conference & Exposition
- Authors
- Cyrus Habibi P.E., Minnesota State University, Mankato; Eric Diep, Minnesota State University, Mankato
- Tagged Divisions
- Biomedical
Paper ID #7047Work in Progress:Developing an integrated motion capture and video record-ing for pediatric biomechanical studiesDr. Mohammad Habibi, Minnesota State University, Mankato Dr. Habibi is an assistant professor in the Department of Integrated Engineering at the Minnesota State University-Mankato. He received his undergraduate and graduate degrees in Electrical Engineering. Fol- lowing his postdoctoral appointments at the University of Wisconsin-Milwaukee, he joined the Iron Range Engineering (IRE) Program in August 2011. The IRE is an innovative, 100% project-based, upper division engineering program located in
- Conference Session
- "Best" of BED
- Collection
- 2013 ASEE Annual Conference & Exposition
- Authors
- Anthony J McGoron, Florida International University; Hamid Shahrestani, Florida International University, BME; Michael Edward Brown, Florida International University; James Dennis Byrne, Florida International University
- Tagged Divisions
- Biomedical
“design” during the 4th year of the curriculum16, 29. Often, in the firstsemester of the design course sequence students form groups, select a project, learn the designprocess and generate a project proposal. Then in the final semester of the curriculum studentscomplete the project and defend it in both written and oral form.In 1994 and again in 2005 ABET-accredited engineering programs were surveyed to gatherinformation on their capstone design courses and the results were published at conferences of theAmerican Society of Engineering Education (ASEE) and the Institute for Electrical andElectronics Engineers (IEEE) 6, 29. A number of interesting observations from the survey resultswere made. Dealing with the way the courses should be presented
- Conference Session
- BME Assessment and the VaNTH ERC
- Collection
- 2007 Annual Conference & Exposition
- Authors
- Steven Schreiner, Western New England College; Judy Cezeaux, Western New England College; Diane Testa, Western New England College
- Tagged Divisions
- Biomedical
system design needs to ensure that: assessment data are collected consistentlyby the faculty, the faculty is involved in the analysis of these data, and any changes made inresponse to the data are implemented by the faculty.At Western New England College, a program outcome assessment system has been designed tomaximize faculty buy-in and participation by carefully defining the faculty interaction with thesystem. Most of the quantitative outcome data are delivered to the system from specific courseswithin the curriculum. The instructor of a course needs to be concerned with predefinedoutcome measures and deliver data to support that measure. This works well because instructorsare centered on the day-to-day activity within their courses. This
- Conference Session
- Biomedical Engineering Poster Session
- Collection
- 2013 ASEE Annual Conference & Exposition
- Authors
- Jorge E Bohorquez, University of Miami; Jonathon Anthony Toft-Nielsen
- Tagged Divisions
- Biomedical
Paper ID #7510Work in Progress: Collaborative Learning in Medical Electronics Labora-toryMr. Jorge E Bohorquez, University of Miami Dr. Jorge Boh´orquez received his bachelor degrees in Physics and Electrical engineering in 1984 and his Ph.D. degree in Biomedical Engineering in 1991. Currently Dr. Boh´orquez works as an assistant professor of Professional Practice at the Department of Biomedical Engineering of the University of Miami. His research interests are Engineering Education, Neural Engineering, Biosignal Processing and Instrumentation.Dr. Jonathon Anthony Toft-Nielsen
- Conference Session
- Innovations in Design within BME Curricula
- Collection
- 2011 ASEE Annual Conference & Exposition
- Authors
- Howard P. Davis, Washington State University; Denny C. Davis, Washington State University
- Tagged Divisions
- Biomedical
requirements and pros and cons of different sources of capital. 5. Abilities to apply knowledge about intellectual property to strategically create barriers to entry for competitors. 6. Abilities to plan and manage a design project to complete specified deliverables within allotted time and budget. 7. Abilities to organize, improve, and contribute effectively to a multidisciplinary project team. 8. Abilities to access, learn, process, and demonstrate knowledge competence to advance a team-based entrepreneurial engineering project. 9. Abilities to explain and demonstrate ethical and professional responsibility in the context of team interactions, class assignments, client interactions, and professional
- Conference Session
- BME Assessment and the VaNTH ERC
- Collection
- 2007 Annual Conference & Exposition
- Authors
- Susan Blanchard, Florida Gulf Coast University; James Sweeney, Florida Gulf Coast University
- Tagged Divisions
- Biomedical
AC 2007-439: PROPOSED BEST PRACTICES FOR PREPARINGBIOENGINEERING AND BIOMEDICAL ENGINEERING PROGRAMS FORABET ACCREDITATIONSusan Blanchard, Florida Gulf Coast University SUSAN M. BLANCHARD is Founding Director of the U.A. Whitaker School of Engineering and Professor of Bioengineering at Florida Gulf Coast University. She received her M.S. and Ph.D. degrees in Biomedical Engineering from Duke University in 1980 and 1982, respectively, and her A.B. in Biology from Oberlin College in 1968. She is a Fellow of the Institute of Electrical and Electronics Engineers, the Biomedical Engineering Society, and the American Institute for Medical and Biological Engineering and is an ABET Program
- Conference Session
- BME Courses and Learning Activities
- Collection
- 2011 ASEE Annual Conference & Exposition
- Authors
- Weizhao Zhao, University of Miami; Xiping Li; Fabrice Manns, University of Miami
- Tagged Divisions
- Biomedical
: Internet-based medical imaging teaching software.As a key component in BME, medical imaging, combining physics, mathematics, electrical andcomputer engineering, provides students with a broad view of an integration of differenttechnologies applied to biology and medicine. Recognizing the broad impact of medical imagingeducation on BME students, many institutions have established such a curriculum. Based on the Page 22.1057.2Whitaker Foundation’s BME program database31, there are 119 universities or colleges that haveBME programs in the nation. 70 undergraduate programs have been accredited by the ABET.Through the Internet, we surveyed these 119
- Conference Session
- Ethics Education, Global Health, and Outreach in BME
- Collection
- 2012 ASEE Annual Conference & Exposition
- Authors
- Michael J. Rust, Western New England University; Steven G. Northrup, Western New England University
- Tagged Divisions
- Biomedical
regarding global health issues, 2) increasestudent interest in global health as an area for future study or careers, and 3) increase studentinterest in traveling abroad and learning a foreign language.Course BackgroundThe new Global Health & Technology course was developed and implemented for the first timein Spring 2011. The course was co-instructed by two faculty members from the College ofEngineering, including one biomedical engineer and one electrical engineer (EE). Bothinstructors had prior experience with global health, including research projects involving medicaldevices and prior course-based trips to developing countries. Since one of the goals of thecourse was to create a multidisciplinary learning environment, the course was made
- Conference Session
- BME Courses & Curricular Content
- Collection
- 2008 Annual Conference & Exposition
- Authors
- Robert Linsenmeier, Northwestern University; David Gatchell, Northwestern University
- Tagged Divisions
- Biomedical
Recognizing the importance of certain areas in the physiology curriculum, and thepaucity of quantitative problems, we have initiated a project to create problems that can be doneby students electronically and independent of a particular textbook. This project uses thepowerful Courseware Authoring and Packaging Environment (CAPE) and ExperimentalLearning Management System (eLMS) that has been developed by the VaNTH ERC 8.CAPE/eLMS problems have many features which differentiate them from problems madeavailable through other learning management systems such as Blackboard. In a CAPE/eLMSproblem, the student interacts continuously with the computer. When a student enters the answerto a problem, he or she receives feedback immediately on whether he or she
- Conference Session
- Innovative Laboratories in BME
- Collection
- 2006 Annual Conference & Exposition
- Authors
- Markus Billeter, Swiss Federal Institute of Technology (ETH) Zurich, Institute for Biomedical; Grace M. Nijm, Northwestern University; Bugrahan Yalvac, Northwestern University; Alan Sahakian, Northwestern University
- Tagged Divisions
- Biomedical
2006-1950: A LABORATORY DEMONSTRATION OF SPATIAL ENCODING INMRIMarkus Billeter, Swiss Federal Institute of Technology (ETH) Zurich, Institute for BiomedicalEngineering MARKUS BILLETER is a MS student in Electrical Engineering and Information Technology at the Swiss Federal Institute of Technology (ETH) in Zurich. He is currently working on his Master Thesis at Northwestern University which is the last step to receive his MS degree.Grace M. Nijm, Northwestern University GRACE M. NIJM earned her B.S. in Computer Engineering from Illinois Institute of Technology in 2004 and her B.S. in Computer Science from Benedictine University in the same year. In 2005, she was awarded the NSF Graduate Research