Basic Duration: 5 years, 4 years | Enrollment Object: | Education: Junior College | Major Code: 082601
Cultivation Objectives
Cultivation Objectives
Cultivation Objectives: This major cultivates students who are equipped with good humanistic qualities and teamwork spirit, and who are able to systematically master basic theories of biomedical engineering, basic knowledge and basic skills, and who can engage in engineering technology development, service, management and education or pursue postgraduate studies in medical devices, healthcare and other related industries. This program aims to cultivate biomedical engineering professionals with good humanistic spirit, teamwork spirit, systematic mastery of basic theories, basic knowledge and basic skills, who are capable of engaging in the development of engineering technology, service, management and education in the enterprises and institutions of medical devices, health care and other related industries, or pursuing postgraduate studies, and who have strong knowledge updating ability and innovation ability of biomedical and engineering sciences. Cultivation Requirements: Students of this program mainly study the basic theories and knowledge of life science, electronic technology, computer and information science, medical instrumentation and biomedical materials, receive strict scientific experimentation, technical research and development training and preliminary scientific research training, and master the basic ability of applied research, product development and management of engineering technology in biomedicine. Graduates should acquire the following knowledge and abilities: 1) solid knowledge of natural sciences, with a certain foundation in humanities, arts and social sciences; 2) certain knowledge of physiology and medicine; 3) basic principles and applications of biomedical electronics and information technology, basic theories and analytical methods of biomedical information detection and processing, and basic principles of biomedical materials and their design methods; 4. understand the frontier of biomedical engineering and the development of new technologies; 5. understand the medical device industry standards and related regulations; 6. have a sense of innovation, with a certain degree of scientific research, scientific and technological development and organization and management capabilities; 7. have the ability to retrieve, read and translate foreign literature, with scientific and technological foreign language writing skills and language communication skills. Main Disciplines: Biomedical Engineering. Core knowledge areas: medical foundation, engineering physiology, basic electronic technology, computer principles and applications, biomedical sensors, modern medical instrumentation, biomedical signal processing, medical imaging and image processing, biomedical optics, biomechanics, biomedical materials and so on. Main Practical Teaching Sessions: production internship, clinical internship, graduation design (thesis), extracurricular scientific research training. Major experiments: basic electronic technology experiment, computer technology experiment, physiology experiment, medical instrumentation experiment, biomedical sensing experiment, biomedical signal processing experiment. Years of study: five/four years. Degree: Bachelor of Engineering or Bachelor of Science.
Occupational Ability Requirements
Occupational Ability Requirements
Major Content of Specialized Teaching
Major Content of Specialized Teaching
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 of Biomedical Signal Processing. Frontiers of Biomedical Engineering, Principles and Applications of Magnetic *** Vibration Imaging, Engineering Physiology Some colleges and universities are trained in the following specialties: medical devices.
Professional (Skills) Direction
Professional (Skills) Direction
Medical device companies: medical device research and development, debugging and maintenance, medical representatives; medical institutions: manipulation of imaging equipment, equipment maintenance, equipment management.
Examples of professional qualifications
Examples of professional qualifications
Examples of further study majors
Employment Direction
Employment Direction
Employment prospects for biomedical engineering majors are very good, and graduates are mainly employed by management organizations and state agencies, medical institutions, and international pharmaceutical and health care companies. Biomedical engineering students are mainly employed in research institutions, hospital imaging, equipment, clinical engineering, information centers and other related departments, medical equipment-related enterprises, institutions, government-related management departments. Graduates mainly work in the following directions: hospitals, hospital equipment, radiology, information center and other departments, mainly engaged in the maintenance of medical equipment, procurement management and information management, etc.; medical device companies, medical instrument companies to do research and development, sales, maintenance. Sales is mainly to do a good job in the region of the old customers of the device update business, at the same time need to develop new sales channels; after-sales engineers, mainly responsible for the installation and commissioning of the apparatus belonging to the maintenance and so on. Medical device enterprises in the south is generally better, more enterprises, more employment opportunities; electronic computer-related enterprises. Biomedical engineering specializing in a wide range of knowledge, including a lot of electronic computer courses, many graduates into such enterprises; higher medical schools engaged in medical imaging technology teaching, scientific research; apply for the relevant direction of the civil service; in addition to the conscription, participate in support of the western program, to the village, apply for the selection of the students, self-employment and other employment paths.
Biomedical engineering graduates can work in management and state agencies, medical institutions (clinical research, highly specialized medical care, management), in the use of medical equipment, sales and service, research institutes, universities (basic research, teaching), international pharmaceutical, health care companies (management, research and development), private institutions and doctors to cooperate with the graduates can directly participate in highly specialized medical care and solve clinical problems. Graduates can directly participate in highly specialized medical care and solve problems in basic clinical research, and the devices and systems developed by them play an important role in the observation, diagnosis, treatment, and alleviation of diseases.
Corresponding Occupations (Positions)
Corresponding Occupations (Positions)
Other Information:Biomedical engineering is roughly defined as the use of engineering-type methods to solve problems in biology and medicine.
Biomedical engineering is a first-level discipline (that is, the grade is equivalent to "finance", "electronics", meaning that the scope of the discipline is very broad) does not have a subordinate second-level disciplines, so for example, the University will be divided into materials, medical electronics, imaging, etc.
Prospects
Prospects, the market for medical instruments is still very large, and the demand for talent is also high. Medical image processing is also in great demand, after graduation to do image processing can not only do medical image. The EEG aspect is under development.
Medical materials, especially in the area of prosthetics, the country is now very short. Probably understand that is these, if you read this specialty is recommended to read at least to the master's degree is better.
I. Employment prospects:
Can be in the management and state agencies, medical institutions (clinical research, highly specialized medical care, management)
In the use of medical devices, sales and service, research institutes, universities (basic research, teaching), international pharmaceutical, health care products enterprises (management, research and development), private institutions and doctors working together, graduates can directly participate in highly specialized medical care and solve problems in basic clinical research, the devices and systems developed by them play a very important role in the observation, diagnosis, treatment, and alleviation of disease.
Second, the direction of employment:
The main direction of employment for students is research institutions, hospital imaging, equipment, clinical engineering, information centers and other related departments, medical device-related enterprises, institutions, the government related management departments.
Biomedical Engineering (BME) is the combination of physics, chemistry, mathematics, and computers with engineering principles to engage in biological, medical, behavioral, or health research;
proposing fundamental concepts, generating knowledge from the molecular level to the organ level, and developing innovative biological products, materials, processing methods, implants, devices, and informatics methods for the prevention, diagnosis, and treatment of disease, the rehabilitation of patients, and the improvement of health.
The main career paths for students are research institutes, hospital imaging, equipment, clinical engineering, information centers and other related departments, medical device-related enterprises, institutions, and government management departments. The future is still very good.
Now, there are a lot of employment opportunities for doctors, and those who are more specialized are mainly in medical device-related enterprises, such as GE, Siemens, Philips, Johnson & Johnson, as well as domestic enterprises such as Lianyin, Meirui, and Blue Rhyme.
Whether it is a provincial civil servant or a national civil servant, the Food and Drug Administration (FDA) has a position dedicated to recruiting biomedical engineering professionals.
Biomedical engineering discipline is to solve the relevant problems in medicine, to protect human health, for the prevention of disease, diagnosis, treatment and rehabilitation services of a discipline. It is a cross-discipline with a high degree of integration, which is its greatest characteristic.
Biomedical engineering it synthesizes the theory and method of engineering, biology and medicine, at all levels to study the state of the human body system changes, and the use of engineering technology to control such changes biomedical engineering professional training with life sciences, electronics, computer technology and information science related to the basic theoretical knowledge and medical and engineering technology combined with the ability to conduct scientific research, can be in the field of biomedical engineering, medical instrumentation, as well as medical and engineering technology, and can be in the field of biomedical engineering, medical instrumentation, as well as the control of such changes. Biomedical engineering field, medical instruments and other electronic technology, computer technology, information industry and other departments engaged in research, development, teaching and management of senior engineering and technical personnel.
References:
Simply put, the task of biomedical engineering is to apply the knowledge of biology and the means of engineering to solve practical problems in medicine.
Now, the biomedical profession employment direction is a lot, the professional more counterparts are mainly to go to the medical device-related enterprises, such as some foreign enterprises: GE, Siemens, Philips, Johnson & Johnson, etc., as well as a number of domestic enterprises, such as Lianyin, Myriad, Blue Rhyme, etc.;
Or go to the universities, research institutes and so on to continue to engage in scientific research.
There are also people who switch to do things related to biomedicine, such as going to hospitals, doing counseling and so on.
Whether it's a provincial civil servant or a national civil servant, the Food and Drug Administration has a position dedicated to recruiting biomedical engineering professionals. Specialization can limit a large group of people in this path that requires bloodshed. So, if you want to apply for civil service, this position is the best choice, but unfortunately, this position at the national level requires graduate students.
Biomedical Engineering (Biomedical Engineering, or BME) is the combination of physics, chemistry, mathematics, and computers with the principles of engineering to engage in biological, medical, behavioral, or health research; to formulate fundamental concepts, generate knowledge from the molecular level to the organ level, and to develop innovative biological products, materials, processing methods, implants, devices, and informatics methods for the prevention, diagnosis, and treatment of disease, the rehabilitation of patients, and the improvement of health.
Biomedical-Engineering is an emerging fringe discipline, which integrates the theories and methods of engineering, physics, biology and medicine to study the changes in the state of the human body system at all levels and to control such changes by means of engineering technology, with the aim of solving the relevant problems in medicine, safeguarding the health of human beings, and contributing to the prevention, diagnosis, treatment and treatment of diseases. The aim is to solve problems in medicine, to safeguard human health, and to serve for the prevention, diagnosis, treatment and rehabilitation of diseases
Service. It has a branch of bioinformatics, chemical biology and other aspects of the main study of biology, computer information technology and instrumental analytical chemistry, etc., the development of microfluidic chip technology for medical diagnosis and drug screening, as well as personalized, translational medicine provides a new technological prospects for biomedical engineering, chemical biology, computational biology and microfluidic technology biochip is a systematic biotechnology, and thus with the systematic bioengineering will be move towards a unified future.