Automation major in the current and future development prospects are very broad.
1. Good prospects for basic employment.
Automation students have a wide range of employment opportunities after graduation in the manufacturing industry, energy industry, transportation, medical equipment and other fields. With the development of the industry, many companies are increasing the demand for automation professionals, employment prospects are good.
2, professional skills to pursue in-depth development.
With the continuous progress of technology, new technologies and applications are emerging in the automation industry, such as the Internet of Things, artificial intelligence, cloud computing and so on. Students majoring in automation can continue to improve their professional skills through the study and understanding of new technologies, and gain more opportunities and competitiveness in the workplace.
3, cross-border development.
Students majoring in automation have a wide range of knowledge and skills, and there is a broad space for development in the field of science and technology. For example, they can turn to fields such as artificial intelligence, data science, intelligent manufacturing, or to interdisciplinary fields such as systems engineering and engineering management by studying and researching related specialized knowledge.
Knowledge and skills required for automation majors:
1. Control theory and methods.
Learn automatic control theory and system control methods, including PID control, fuzzy control, neural network control. Master the control algorithms commonly used in engineering, and be able to design and optimize the control system.
2. Electrical and Electronic Technology.
Understand the principles and applications of electronic components such as circuits, motors, and sensors. Study of electrical technology, including power systems, motor control, and circuit design to provide electrical support for automation systems. Acquire practical and applied skills in automation engineering through labs, hands-on training, and project practice. Develops the ability to solve real-world problems.
3. Automation Instruments and Equipment.
Learn the principles, operation and maintenance of automation instruments and equipment. Understand the application and configuration of industrial automation systems such as PLC, DCS, SCADA. Learn embedded systems, computer networks, software programming and other technologies to be able to develop and program computer control systems.