Biomedical engineering is a comprehensive interdisciplinary subject, which is its greatest feature. Biomedical engineering integrates the theories and methods of engineering, biology and medicine, studies the state changes of human body system at all levels, and uses engineering technology to control this change. Its purpose is to solve medical problems, safeguard human health and serve the prevention, diagnosis, treatment and rehabilitation of diseases.
2, biomedical engineering courses
Advanced mathematics, general physics, analog electronic technology, pulse digital electronic technology, medical sensor, digital signal processing, microcomputer principle and application, medical image processing, medical instrument principle, medical imaging instrument, laboratory analytical instrument, clinical engineering and normal human morphology.
3. Training objectives of biomedical engineering specialty
Training objectives
This major trains senior engineering and technical personnel with basic theoretical knowledge related to life science, electronic technology, computer technology and information science and scientific research ability combining medicine with engineering technology, who can engage in research, development, teaching and management in electronic technology, computer technology and information industry such as biomedical engineering and medical instruments.
Training requirements
Biomedical engineering students mainly study the basic theories and knowledge of life science, electronic technology, computer technology and information science, cultivate the application of electronic technology, signal detection and processing and computer technology in medicine, and have the basic research and development ability in the field of biomedical engineering.
4. Employment direction and employment prospect of biomedical engineering specialty.
Career prospects
It can cooperate with state organs, medical institutions (clinical research, highly specialized medical care and management), scientific research institutes, universities (basic research and teaching), international medical and health enterprises (management, research and development), private institutions and doctors in the use, sales and service of medical devices. Graduates can directly participate in highly specialized medical care and solve problems in basic clinical research. The equipment and systems they developed are very important for diseases.
Employment direction
The main destinations for students' employment are research institutions, hospital imaging, equipment, clinical engineering, information centers and other related departments, medical equipment-related enterprises and institutions, and relevant government administrative departments.
Second, the ranking of biomedical engineering universities
1. Southeast University A++
2. Tsinghua University A+ level
3. Shanghai Jiaotong University A+
4. Huazhong University of Science and Technology A+
5. Sichuan University a
6. Beihang a
7. Zhejiang universitya
8. Chongqing universitya
9.Xi jiaotong university a
10. Peking University B+
1 1. University of Electronic Science and Technology of China B+
12. Beijing Institute of Technology B+
13. Tianjin University B+
14. Fudan university B+
15. South China University of Technology B+
16. Chongqing Medical University B+
17. Capital Medical University B+
18. Northeastern University B+
19. Tongji university B+
20. University of Shanghai for Science and Technology B+
2 1. Central South University B+
22. Southern Medical University B+
23. Taiyuan University of Technologyb
24. Harbin Medical Universityb
25. Northwestern Polytechnical Universityb
26. Donghua university b
27. Wenzhou Medical College b
28. Hunan University b
29. shanghai universityb
30. South-Central University for Nationalities b
3 1 .shenyang university of technology b
32. Dalian Ocean Universityb
Changchun university of science and technology.
34. Lanzhou University b
35. Chongqing University of Technology b