Biomedical engineering is a comprehensive discipline that covers biology, medicine and engineering, and aims to apply engineering techniques and principles to solve problems in the fields of medicine and biology, including the design and manufacture of medical devices, medical information management, biosignal processing, and artificial organ design.
Biomedical engineering is a specialty that applies engineering technology to the fields of medicine and biology, with the primary goal of making medical devices and technologies smarter and more precise to meet people's needs for health and quality of life.
In the biomedical engineering program, students need to learn about medicine, biology and engineering, including biomedical signal processing, biomaterials science, biomedical imaging technology, medical informatics, and biological microelectromechanical systems. Students need to acquire skills in engineering design, data processing and experimental research, as well as an understanding of the fundamentals of medicine and biology.
After graduation, biomedical engineering students can work in design, development and research related to medical devices, biomaterials, medical information, biomedical imaging and artificial organs. They can work in medical device companies, hospitals, research institutions, large pharmaceutical companies and other fields.
In short, biomedical engineering is a comprehensive discipline that applies engineering technology to the fields of medicine and biology, aiming to improve the intelligence and precision of medical equipment and technology through technological means to provide better protection for people's health and quality of life.