Graduate students in the control program have a very bright job outlook.
With the continuous development and progress of science and technology, the demand for control engineering personnel is also increasing. From large traditional industries such as steel, chemical, petroleum, electric power, machinery manufacturing, transportation, to emerging industries such as aerospace, smart home, robotics and so on, control engineers are needed.
Control engineering also has a wide range of applications in the Internet and Internet of Things (IoT) fields. With the continuous development of IoT technology and the popularization of various smart devices, the demand for control engineering talents is also increasing. Control engineers can realize the automation and intelligence of the equipment and improve the performance and efficiency of the equipment by developing and designing various intelligent equipment and control systems.
In the financial field, control engineers can safeguard financial security and stability by developing and designing various risk control systems; in the medical field, control engineers can improve the medical level and efficiency by researching, developing and designing various medical equipments and control systems; in the field of education, control engineers can improve the quality and effect of teaching by researching, developing and designing various teaching equipments and control systems.
In the future, with the continuous development of artificial intelligence, big data, cloud computing and other technologies, control engineering will play a more important role. Control engineers can develop and design smarter and more efficient control systems by utilizing these new technologies to promote the development of industry and society.
Control Professional Research Direction
1, control theory and application: the study of linear systems and nonlinear systems control theory; modeling, control and optimization of complex industrial processes; electrical energy conversion and motion control; computer measurement and control and network technology; integrated automation systems, etc.; a variety of control strategies, including adaptive control, variable structure control, intelligent control, optimization control, networked control, etc.
2, detection technology and automation devices: research process control and intelligent instrumentation; modern detection and sensor technology; a variety of automation devices; system integration technology.
3, pattern recognition and intelligent systems: research on intelligent control systems based on artificial life; distributed cooperative control and calming of multi-robot systems; topology of complex multi-intelligent body system and the system's ability to control the analysis; switching the system's calming and control; multi-intelligent body network system protocol design, etc..