General Information
Biomedical engineering is a multidisciplinary program utilizing the application of engineering principles to the fields of biology and health care.
This program is developed in coordination with Electrical and Electronic Engineering, Biological Sciences, Mathematics, Physics, and Chemistry Departments as well as the Faculty of Health Sciences and Medicine. Biomedical Engineering is a state-of-the-art interdisciplinary program that provides a common platform for collaboration among engineering, natural, and medical sciences. In this context, electrical, electronic, computer, and mechanical engineers collaborate with physiotherapists, biologists, medical doctors, and pharmacists for a healthier future of humanity.
Education
The Biomedical Engineering program's goal is to create world-class graduates to meet the 21st century needs of biomedical-related industries focused on patient care via medical devices and pharmaceuticals, as well as government and private consulting practice – all founded on a strong science and engineering education. Graduates of the EMU Biomedical Engineering Program will:
Apply engineering principles to understand and predict the behavior of biological and physiological systems relevant to human health and disease.
Understand and apply the theory and practice of biomedical engineering design and technology creation tailored towards patient care and human health.
Engineer robust solutions within highly variable and complex biomedical problems.
Build critical leadership, interpersonal, and professional skills to thrive within diverse team environments and prepare for life-long learning.
Be provided with opportunities for an experiential learning approach based on biomedical applications.
Have a complimentary general education in humanities, history, and social sciences.
Career Opportunities
With an aging population and diseases such as diabetes and obesity on the rise, our society is facing new challenges in health and well-being every day. Biomedical Engineering plays a pivotal role in developing solutions. There are countless opportunities for biomedical engineers to make a difference in our world and work in a wide range of application areas, including:
Biomedical data analysis
Biomedical image analysis and pattern recognition
Medical device product design, manufacturing, testing, and management
Simulation and modeling of diseases and biological systems
Healthcare regulations
Design and engineering of sports equipment and testing
Research and development in medical devices and instrumentation
Details
Scholarship: 50%
Duration: 4 Years
Deadline: 1st March 2022
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