Displaying all 4 results
- Conference Session
- Biomedical Engineering Division (BED) Technical Session 2
- Collection
- 2024 ASEE Annual Conference & Exposition
- Authors
- William D. Moscoso-Barrera, University of Texas at Austin; Huiliang Wang, University of Texas at Austin
- Tagged Topics
- Diversity
- Tagged Divisions
- Biomedical Engineering Division (BED)
othersupporting scientific articles. Students defined design requirements, generated evolutionarysolutions through multiple iterations, and demonstrated the utility of scientific literature byapplying knowledge to enhance their designs. This approach facilitated a deeper exploration ofbiomedical technology, involving critical analysis and improvement of materials, methods, andmanufacturing techniques.Seventeen students participated in the project, divided into six groups, each assigned specifictopics related to wearable and implanted technologies. Over 14 weeks, students followed astructured process, making presentations associated with three design iterations, showcasing theirprogress, and receiving feedback from a teaching team consisting of the
- Conference Session
- Biomedical Engineering Division (BED) Poster Session
- Collection
- 2024 ASEE Annual Conference & Exposition
- Authors
- Jennifer H Choi, University of California, Davis
- Tagged Topics
- Diversity
- Tagged Divisions
- Biomedical Engineering Division (BED)
feltthat it came at a cost of the project timeline: “It would be nice to do less team building in thebeginning and shift the timeline forward faster.”Figure 2. Comparison of mean CATME Peer Evaluation #1 ratings for BME capstone designcourse from course offerings before asset-based activities were included (Pre: No AssetActivities, n=364), after activities were included (Post: No Asset Activities, n=425), and duringthe two course offerings in which asset-based activities were implemented (Asset Activities,n=457). *Statistical significance (p<0.05, t-test).Importantly, asset-based activities were implemented for the first time during the first iteration ofa restructured senior design course, where the BME senior design course transitioned from a
- Conference Session
- Biomedical Engineering Division (BED): Best of Works in Progress
- Collection
- 2023 ASEE Annual Conference & Exposition
- Authors
- Uri Feldman, Wentworth Institute; George D. Ricco, University of Indianapolis
- Tagged Topics
- Diversity
- Tagged Divisions
- Biomedical Engineering Division (BED)
implementations through the Massachusetts Health Information Exchange. At Wentworth, Dr. Feldman is focused on project-based instruction, hands-on simulations, experiential learning approaches, and first year curriculum. Dr. Feldman is one of the lead instructors for Introduction to Engineering courses, with enrollments in the hundreds each fall. His re- search and teaching interests, in addition to first year engineering, include telemedicine, health informat- ics, rehabilitation engineering, and medical robotics. Dr. Feldman has collaborated with researchers and engineers from organizations including Tufts School of Veterinary Medicine, Boston Children’s Hospital, Vecnacares, and Restoreskills.Dr. George D. Ricco, University
- Conference Session
- Biomedical Engineering Division (BED) Technical Session 2
- Collection
- 2024 ASEE Annual Conference & Exposition
- Authors
- Alexandra Mary Jackson, Rowan University; Cheryl A Bodnar, Rowan University; Cassandra Sue Ellen Jamison, Rowan University; Kaitlin Mallouk, Rowan University; Mary Staehle, Rowan University
- Tagged Topics
- Diversity
- Tagged Divisions
- Biomedical Engineering Division (BED)
understand howBME students develop an entrepreneurial mindset (EM). These studies explore curricular EMinterventions designed to encourage development of EM skills such as curiosity about the coursetopics [22], reflective thinking [16], and designing for a certain customer base [17], [42]. In Kinget al.'s study [40], BME students participated in capstone design projects where they worked inteams to design prototypes based on existing patent applications of industry professionals. Thesestudents were able to learn about the engineering design process as well as the business side ofintellectual property development such as patents, customer discovery, budgeting, andcommunication of results [40].In several studies on EM development within a BME context