The Department of Biomedical Engineering at Stevens Institute of Technology offers first-class bachelor's degrees, second-class master's degrees, first-class doctoral degrees, and first-class graduate certificates. Biomedical engineering researchers focus on healthcare, medicine, and nanotechnology applications. The department has more than a dozen laboratories and advanced facilities on campus.
The following is an introduction to the biomedical engineering major at Stevens Institute of Technology, come and learn more.
1. Bachelor of Biomedical Engineering
Biomedical engineers design equipment and instruments to assist physicians in diagnosing and treating diseases and to help people with impaired limb function improve their lives. Examples of such innovations include cardiac implants, pacemakers, shock generators, imaging equipment, prostheses, replacement parts, portable electrocardiographs, and heart-lung machines.
At Stevens Institute of Technology, the undergraduate biomedical engineering major is a rich, multidisciplinary program designed to prepare students for entry into the biotechnology industry, medical school, or graduate school. The rich teaching program involves not only mathematics, science, and engineering, but also the study of biology, psychology, and the relationship between engineering materials and biological surfaces. Design and experimental experience account for a large part, with the latter involving the evaluation of biological systems.
The undergraduate biomedical engineering major at Stevens Institute of Technology, like other majors in the same field, takes general engineering courses, including eight semesters of design. The final three semesters of design are project-oriented, and the last two semesters are dedicated to the "Capstone Design" project. This project requires working in teams to design, build and test a medical facility.
Biomedical engineering senior design usually involves two or more faculty advisors. Among them, one is from Stevens Institute of Technology and the other (a physician) is from a medical institution that cooperates with the college.
Biomedical engineers must have a deep grasp of biology and human physiology. With this in mind, the Biomedical Engineering major at Stevens Institute of Technology allows students to study biological transport phenomena, biomaterials, biomechanics, electronics, digital signal processing, medical imaging, and mathematical simulation of physiological processes. The department's laboratories allow students to collect and analyze biological and physiological data at all levels.
Research Opportunities
Stevens Institute of Technology currently has teaching and research cooperation agreements with Hackensack University Medical Center and New Jersey Medical College. Senior design students regularly win awards in local and national design competitions. Every year, a portion of student intellectual property is turned into patents. Every year some students start companies.
Faculty in the Department of Biomedical Engineering welcomes undergraduate students to conduct research in their research laboratories. Their research areas mainly involve bionic robots, brain-computer interfaces, spinal transplantation, respiratory mechanics, emergency medicine (in collaboration with New Jersey Medical School) and tissue engineering.
2. Master of Biomedical Engineering
At Stevens Institute of Technology, biomedical engineering graduate students are the leading authority in the field and are engaged in influential research and development. New technologies to improve lives. Biomedical Engineering master's degree graduates develop careers in academia, industry and medicine, working in biomedical innovation.
The biomedical engineering graduate program at Stevens Institute of Technology involves multiple disciplines, and its advanced research involves engineering, biology, life sciences, medicine, clinical applications, and bioethics. Allows students to study in depth the aspects of biomedical engineering that interest them most.
Through this major, you can examine some emerging fields with teachers who are actively involved in patent work, test and simulate new equipment in world-class laboratories, and then tap your potential in an entrepreneurial environment , develop a rigorous scientific attitude and broaden your horizons.
The graduate program in biomedical engineering at Stevens Institute of Technology is design-oriented and helps students apply new technologies to business. With applications as important as concepts, this major also provides students with many opportunities to collaborate with faculty and industry partners to better prepare themselves for success after graduation.
Whether you are already working in biomedical engineering or plan to enter the industry, this major can provide a structured curriculum to help you achieve your career goals. After completing this major, students usually find employment in industry, research institutions, and clinical settings.
In addition, you can enter medicine, dentistry, veterinary medicine, physiotherapy and other professions through this major.