Measurement and Control Technology and Instrumentation is a comprehensive discipline covering the fields of measurement, control and instrumentation. It involves the measurement, control and realization of various physical quantities (such as temperature, pressure, displacement, velocity, etc.), as well as related electronics, computers, information processing and other technologies. Measurement and control technology and instruments have a wide range of applications in industrial production, scientific research and experiments, such as automated production lines, intelligent manufacturing, aerospace, medical equipment and other fields. Therefore, when choosing a postgraduate direction, students in this major can choose a research direction related to this field according to their interests and future career planning. Here are some possible pathways to get into graduate school:
Precision instruments and machinery.
The direction of precision instruments and machinery mainly studies the design, manufacture and application of various high-precision measuring instruments. This direction involves precision mechanics, optics, electronics, computers and other technologies, and requires students to have a high degree of hands-on ability and sense of innovation. Future career directions include instrumentation designer, manufacturing engineer, maintenance engineer, etc.
Test and measurement technology and instruments.
The direction of test and measurement technology and instruments mainly studies the design, development and application of various test and measurement methods, technologies and instruments. This direction involves the principles of test measurement, error analysis, data processing and other methods, as well as related electronics, computers, optics and other technologies. Future career directions include test and measurement engineers, quality inspection engineers, etc.
Automation instruments and devices.
The direction of automation instruments and devices mainly studies the design, manufacture and application of various automation instruments and devices. This direction involves automation control theory, sensor technology, embedded systems and other technologies, and requires students to have high practical ability and engineering awareness. Future career directions include automation equipment designer, manufacturing engineer, control system engineer, etc.
Intelligent Systems & Instruments.
The direction of intelligent systems and instruments mainly studies the design, development and application of intelligent instrument systems based on computers, embedded systems and other technologies. This track involves artificial intelligence, machine Xi, Internet of Things and other technologies, and requires students to have high computer programming ability and innovative thinking. Future career directions include intelligent system development engineer, instrumentation intelligent engineer, etc.
Medical Instrumentation & Engineering.
The medical instrument and engineering direction mainly studies the design, development and application of medical instruments. This direction involves biomedical engineering, medical imaging technology and other fields, and requires students to have a high level of medical knowledge and technology. Future career paths include medical device engineer, medical imaging technician, etc.
In short, there are many research directions in measurement and control technology and instrumentation, and each direction has its own unique characteristics and advantages. Students can choose a research direction that suits them according to their interests and strengths, while considering future career planning and development prospects. No matter which research direction you choose, you need to have a solid theoretical foundation and practical ability, as well as a spirit of continuous learning and Xi and innovation.
Autumn and Winter Check-in Challenge