Biomedical engineering professional employment prospects and employment directions are as follows:
1. Biomedical engineering is an emerging cross-disciplinary, serving the medical and health industry, employment prospects are broad. With the booming development of biotechnology, medical equipment development, the employment of graduates has a very big advantage.
2, you can engage in research and development work in medical device companies, pharmaceutical companies, such as new drug development, medical device design, trial production of new equipment. These companies have high demand and high development potential.
3, you can enter all levels and types of hospitals, as medical equipment maintenance engineers, clinical engineers and technicians, to ensure the normal operation of the medical system. This is the main direction of employment.
4, can be in the testing and inspection organizations engaged in medical testing, medical image analysis, reagent development, quality control and other work. There is also a large demand for such units.
5, can be in the form of self-employment, open medical equipment repair points or research and development of innovative medical products. With the development of the senior care industry, the prospects for entrepreneurship are promising.
6, you can also go to graduate school to continue to study, get a master's degree, doctoral degree and then engaged in scientific research. Some graduates can also stay in the school to teach.
7, some large companies will also recruit biomedical engineering graduates, but need to bear a certain amount of risk to change jobs.
8. The salary level is higher overall, the employment competitiveness is strong, and you can get a better career development space.
Biomedical engineering is an emerging interdisciplinary discipline that applies engineering principles and systems analysis methods to study biomedical problems. The main research content includes:
1, the development and application of biomedical instrumentation, such as a variety of medical diagnostic and therapeutic equipment, clinical testing instruments.
2, the development of biomedical materials and artificial organs, such as organ culture technology, biodegradable materials.
3, information acquisition and processing in life science and medicine, such as medical signal detection, medical image processing.
4, biomechanical aspects of the analysis, such as human biomechanical analysis.
5, clinical engineering and hospital information systems research.