Biomedical engineering mainly studies the basic knowledge and skills in life sciences, electronic technology, computer technology and information science, including biomaterials, artificial organs, biomedical signal processing methods, medical imaging and image processing methods. For example, the research and development of artificial organs such as artificial hearts and artificial joints, the manipulation and maintenance of medical equipment such as brain CT machines and nuclear magnetic **** vibration machines, and the image processing of ultrasound and nuclear magnetic **** vibration imaging.
Biomedical Engineering Employment Prospects
Biomedical Engineering Employment Prospects are mainly in medical device companies and medical institutions engaged in medical equipment research and development, debugging and maintenance, medical representatives, manipulation of imaging equipment, equipment maintenance, equipment management.
Biomedical Engineering Study Courses
Anatomy and Physiology, Biochemistry and Molecular Biology, Bioinformatics, Biomedical Sensors, Medical Imaging, Principles of Medical Analytical Instrumentation, Principles of Medical Instrumentation, Frontiers of Biomedical Engineering, Principles and Applications of Magnetic *** Vibration Imaging, and Engineering Physiology Some colleges and universities are trained according to the following Specialized direction of training: medical devices.
Biomedical Engineering Training Objectives and Requirements
This specialty cultivates the basic theoretical knowledge of life sciences, electronics technology, computer technology and information science, as well as medical and engineering technology combined with scientific research capabilities, and can be engaged in the field of biomedical engineering, medical instrumentation, as well as other electronic technology, computer technology, information industry and other sectors of the research, development, teaching and management of senior engineering and technical personnel.
The students of this major mainly study the basic theories and basic knowledge of life sciences, electronic technology, computer technology and information science, and receive basic training in electronic technology, signal detection and processing, and the application of computer technology in medicine, and have the basic ability of research and development in the field of biomedical engineering.
Biomedical Engineering Essential Abilities
1. Master the basic principles and design methods of electronic technology;
2. Master the basic theories of signal detection and signal processing and analysis;
3. Have basic knowledge of biomedical sciences;
4. Have the ability to apply microprocessor and computer;
5. Initial ability of biomedical engineering research and development;
6. Certain basic knowledge of humanities and social sciences;
7. Understanding of the development of biomedical engineering;
8. Mastering of the basic methods of literature search and data query.