Biomedical Engineering, referred to as BME, is an emerging edge discipline. It combines theories and methods of engineering, physics, biology, and medicine to study state changes in human systems at various levels and uses engineering techniques to control such changes. The goal of biomedical engineering is to solve problems in medicine, to protect human health, and to provide services for the prevention, diagnosis, treatment, and rehabilitation of diseases. It has a branch of biological information, chemical biology, mainly related to biology, computer information technology, and instrumental analytical chemistry. The development of microfluidic chip technology provides a new technological prospect for biomedical engineering in medical diagnosis and drug screening, as well as personalized and translational medicine. Chemical Biology, Computational Biology, and Microfluidic Technology Biochips are systems biotechnology that align with system bioengineering.
Biomedical engineering began in the 1950s. It has a close relationship with medical engineering and biotechnology, and it has developed very rapidly, becoming one of the major areas of competition in the world.
Biomedical engineering, like other disciplines, is also determined by technological, social, and economic factors. This term first appeared in the United States. In addition to good social benefits, biomedical engineering has good economic benefits and a very broad prospect. It is one of the high technologies that countries are competing to develop in the new era.
With the development of science and technology, various large-scale medical equipments are increasingly used in hospitals. Hospitals and companies urgently need talents to operate, maintain and manage large medical equipment. Besides, the biomedical engineer is in need in many medical institutes.
BIOMEDICAL ENGINEERING VS BIOENGINEERING
1. Biomedical engineering
Biomedical engineering is an emerging edge science, applying the theories and methods of engineering technology, researching and solving medical disease prevention and treatment, and safeguarding people's health. Biomedical engineering focuses on research and maintenance of medical instruments. Biomedical engineering uses concepts and principles to design, maintain, validate and calibrate all equipment in hospitals, research, and medical centers.
Biomedical engineering also includes biological research. Biomedical engineering pays more attention to the learning of knowledge. The disciplines of biomedical engineering research mainly include computer network technology and various large medical equipment. It also studies computer network technologies including digital medical centers, medical image processing and multimedia applications in medicine. In addition, the research field includes the control of biological information and neural network biomedical signal detection and processing.
Biomedical engineering is playing an increasingly important role in hospitals and other medical institutions. Students interested in medicine and engineering will not regret choosing this major, both in terms of biomedical engineering courses and biomedical engineering jobs.
Bioengineering is an emerging comprehensive application discipline that began in the early 1970s. Bioengineering focuses on practice, with major courses such as amino acid production, winemaking, product testing, and more. It tends to be applied in life. In the 1990s, biosystems based on systems theory was born, that is, the concept of system bioengineering called bioengineering. Bioengineering is generally considered to be based on biological theories and techniques, particularly microbiology, genetics, biochemistry, and cytology. Bioengineering combines modern engineering techniques such as chemical, mechanical, and electronic computers to make full use of the latest achievements in molecular biology. It can consciously manipulate genetic material, directionally transform organisms or their functions, and create new species with ultra-long-term traits in the short term.
Algorithms and data structure
Common skills gained from this degree
- Critical thinking skills
- Various analysis research explore
- Organizing ideas with effective way
- Appropriate technology systems use
- Complex concepts and theories explain