Intelligent medical engineering is an emerging interdisciplinary discipline that comprehensively applies high-tech means such as artificial intelligence and sensing technology to the medical field, and its research content includes intelligent drug research and development, medical robots, intelligent diagnosis and treatment, intelligent image recognition, intelligent health data management, etc.
The postgraduate examination directions of intelligent medical engineering are:
1. Biomedical Engineering. 2. Control engineering. 3. Computer application technology. 4. Computer technology. 5. Electronic information engineering. 6. Electronic Science and Technology. 7. Information and communication engineering. 8. Signal and information processing. 9. Bioinformatics. 10. Biomedical Informatics. 11. Medical image processing and analysis. 12. Biomedical signal processing. 13. Medical Data Mining and Machine Learning. 14. Intelligent medical system and technology.
The following directions for the postgraduate examination of intelligent medical engineering are more popular and recommended:
1. Biomedical Engineering.
This is a comprehensive discipline involving mathematics, physics, chemistry, biology and other basic disciplines and electronic information technology, computer technology, laser, microwave and ultrasound, as well as applied engineering disciplines such as machinery and chemical engineering, which can provide theoretical basis and technical support for intelligent medical engineering, and can also be developed and innovated in medical equipment, medical instruments, medical systems, etc., with strong practicality and innovation, and also has great social demand and market competitiveness.
2. Computer application technology or computer technology
These are two disciplines based on the basic theory of computer and highlighting the practical application of computer and network, which can provide technical support for data processing, data mining, data analysis, data visualization, data security and other aspects of intelligent medical engineering, and can also be developed and innovated in intelligent diagnosis and treatment, intelligent image recognition, intelligent health data management, etc., with strong practicality and application, and great social demand and market competitiveness.
3. Signal and Information Processing or Bioinformatics or Biomedical Informatics
These are three signals and information as the research object, the use of mathematics, physics, electronics, computer and other disciplines of theory and methods, the biomedical signals and information collection, processing, analysis, identification, transmission, storage, display and other operations, they can provide signal processing, image processing, pattern recognition, machine learning, artificial intelligence and other aspects of technical support for intelligent medical engineering, can also be in medical image processing and analysis, medical data mining and machine learning, R&D and innovation in intelligent medical systems and technologies have strong theoretical and technical nature, as well as great social demand and market competitiveness.
On the contrary, the following directions are relatively unpopular and not recommended:
1. Control engineering
This is a wide range of industry, agriculture, transportation, environment, military, biology, medicine, economy, finance and society and other fields, the use of control theory and technology to achieve complex work automation, intelligent discipline, although it can provide intelligent medical engineering control system, control algorithm, control strategy and other aspects of technical support, can also be in medical robots, intelligent surgery, intelligent ** However, it is theoretically and technically strong, requires a high mathematical and physical foundation, and also needs to have strong programming and experimental capabilities, and its social demand and market competitiveness are relatively low, and the enrollment scale and admission difficulty are relatively high, so it is not suitable for ordinary candidates to choose.
, Electronic Information Engineering or Electronic Science and Technology or Information and Communication Engineering
These are three disciplines based on electronic information technology, the design, manufacture, testing, application and maintenance of electronic information systems, although they can provide technical support for circuit design, electronic components, communication networks, wireless sensing and other aspects of intelligent medical engineering, they can also be used in intelligent medical equipment, intelligent medical instruments, Intelligent medical systems and other aspects of research and development and innovation, but they are theoretically and technically strong, need to have a high electronic information base, but also need to have strong hardware and software capabilities, and their social needs and market competitiveness are relatively low, the enrollment scale and admission difficulty are relatively high, so they are not suitable for ordinary candidates to choose.
After the postgraduate examination of intelligent medical engineering, you can engage in intelligent surgery, precision medicine, intelligent medicine, telemedicine and other related work in large general hospitals or medical institutionsOr in universities, research institutes, artificial intelligence and intelligent medical related enterprises engaged in the research and development of intelligent medical instruments, the construction of intelligent medical systems, the mining of intelligent medical data, etc., with broad employment prospects.
Postgraduate examination direction of intelligent medical engineering