As a major supported by the national "new engineering" program, the employment prospects of this profession are very broad.
Students can graduate by taking graduate school, enter colleges and universities, scientific research institutions for further study; can go to hospitals, schools, research institutes, medical equipment management departments and departments engaged in biomedical equipment engineers, responsible for a variety of medical equipment management, maintenance, improvement, research and development, etc.;
Can also be to the production of biomedical equipment, equipment and sales companies engaged in research and development, production, sales, etc.;
What are the career prospects for the profession?
On the other hand, they can also be engaged in the research and development, production and sales of biomedical equipments and instruments in the production and sales companies; they can also be engaged in the research and development, design and sales of medical information technology in the relevant medical units and software, computer and electronic companies.
Biomedical engineering belongs to the comprehensive cross-development of disciplines, and has a close combination with the application of many famous foreign universities are very concerned about its development, so the opportunity to go abroad for further study is relatively large; at the same time, you can also turn to study the life sciences and so on.
The main courses of the program include: ideological and moral cultivation and legal foundation, situation and policy, outline of modern Chinese history, basic principles of Marxism, introduction to Mao Zedong's thought and theoretical system of socialism with Chinese characteristics, physical education, college English, military theory, human anatomy, physiology, biochemistry, cell biology, advanced mathematics, linear algebra;
Probability Theory and Mathematical Statistics, Physics, Basic Chemistry, Organic Chemistry, Literature Search, Fundamentals of Circuit Analysis, Analog Circuits, Digital Circuits, Signals and Systems, C Programming, Data Structures, Mechanical Drawing, Principles of Microcomputer and Interface Technology, Digital Signal Processing, Sensor Principles and Applications, Microcontroller and Embedded Systems, Medical Image Processing, Principles of Medical Instrumentation, and Medical Laboratory and Analytical Instruments.
In terms of cultivation objectives, the program aims to cultivate applied senior technical talents who are able to adapt to the needs of social development, have good professional and humanistic qualities, possess basic knowledge of life sciences, solid systematic basic theories, basic knowledge and basic skills related to electronic technology, computer technology and information science, and master the scientific thinking and methodology, with strong practical ability, lifelong learning ability and innovative consciousness. The program is designed to provide students with the ability to learn and practice in a practical manner.
Students can be engaged in research and development, design and manufacturing, application management and product marketing in the fields of biomedical engineering, medical instrumentation and medical information technology upon graduation.