Strategic directions for the medical equipment engineering program
program message
Graduating engineers specializing in biomedical engineering who are known for their excellent scientific and practical abilities, critical thinking skills, knowledge diversity, and leadership qualities in the local and regional labor market.
Program Goals :
1. To provide a solid foundation in basic engineering sciences in accordance with the requirements of the engineering specialization.
2. Upgrading the level of education and training of medical equipment and biomedical engineering engineers to a professional level in various related disciplines.
3. Providing general educational courses that enhance students' understanding of the economic, environmental, ethical, political, societal and cultural impacts of the engineering solutions and decisions they propose.
4. Giving graduates the opportunity to develop and apply a set of skills, techniques and attributes essential for effective performance in the work environment.
5. To produce highly qualified national biomedical engineering graduates equipped with the skills, knowledge, understanding and personal characteristics necessary to contribute effectively in the field of specialization and in the development of society.
Specifications of a graduate of the medical engineering program
Graduates after successful completion of the undergraduate program in Biomedical Engineering will be able to:
1. Apply knowledge of mathematics, science, engineering fundamentals, and biomedical engineering to solve complex problems related to the discipline.
2. Identify, formulate, and analyze problems related to the field of biomedical engineering and reach documented conclusions using basic principles in mathematics, natural sciences, and engineering.
3. Designing innovative biomedical systems and components with the required specifications within realistic limits.
4. Searching for sources of information and using databases to reach valid conclusions.
5. Applying appropriate techniques, modern engineering tools, and information technology in various activities in biomedical engineering, while recognizing the difficulties.
6. Safely conduct experiments in measurements, operation, chemistry, physiology, materials, mechanics, electronics, imaging devices and medical equipment.
7. Commitment to the development of society through an understanding of environmental, social, political, ethical, health, safety, manufacturability and sustainability issues.
8. Manage projects in a multidisciplinary environment, identifying leadership and success opportunities related to biomedical engineering.
9. Recognizing the need to engage in lifelong independent learning and having the capacity to do so.
10. Work and communicate effectively in multidisciplinary work teams and with the community as a whole.