Advanced Mathematics, General Physics, Analog Electronics, Pulsed Digital Electronics, Medical Sensors, Digital Signal Processing, Microcomputer Principles and Applications, Medical Image Processing, Principles of Medical Instrumentation, Medical Imaging Instrumentation, Laboratory and Analytical Instrumentation, Clinical Engineering, Normal Human Morphology, Biochemistry, Physiology, Diagnostics, Internal Medicine and Surgery.
Main discipline: Biomedical Engineering.
Core knowledge areas: medical fundamentals, engineering physiology, basic electronics, computer principles and applications, biomedical sensors, modern medical instrumentation, biomedical signal processing, medical imaging and image processing, biomedical optics, biomechanics, biomedical materials.
Second, the biomedical engineering profession in the future to engage in what workAfter graduation, students can be in the medical instrumentation enterprise research and development institutions, biomedical engineering and related disciplines of scientific research units, large hospitals, equipment centers, colleges and universities and other places to work, but also can do the national civil service. Related industries (such as IT, instrumentation, etc.). http://Www.CreDitSaiLing.Com
Engaged in the industry:
After graduation, they mainly work in the medical equipment, nursing, pharmaceutical and other industries, roughly as follows:
1 Medical equipment/devices
2 Medical/nursing/health
3 Pharmaceutical/biological engineering
4 New Energy
5 Electronics/Semiconductor/Integrated Circuit
6 Other Industries
7 Computer Software
8 Instrumentation/Industrial Automation
Engaged in the position:
After graduation, mainly engaged in algorithmic engineers, after-sales engineers, sales engineers and so on, roughly as follows:
1 Algorithmic Engineer
2 After-sales Engineer
3 Sales Engineer
4 Hardware Engineer
5 Maintenance Engineer
6 Registered Specialist
7 Technical Support Engineer
8 Product Manager