1, control science and engineering is the first batch of national key disciplines. Control science and engineering was rated as the first in the national discipline evaluation in 2002, and the second in 2006 and 20 12. This subject has the State Key Laboratory and the National Engineering Research and Technology Center, the only "Innovation Platform of Process Industry Integrated Automation Technology" approved by the Ministry of Education, and the "Innovation and Intelligence Introduction Base of Integrated Process Control College" approved by the Ministry of Education and the Foreign Experts Bureau.
2. The Master of Control Engineering and Domain Engineering requires mastering the basic theories, methods and technologies in the field of modern control. Have the ability to engage in the development and design, process design, implementation, use and maintenance of actual control systems, equipment or devices. More importantly, you should have some practical work experience, be able to solve practical problems in engineering practice, master a foreign language, and be able to read scientific and technological materials and documents in this engineering field smoothly.
3. The major of control theory and control engineering belongs to the first-class discipline of control science and engineering. This subject takes engineering system as the main object, and takes mathematical methods and computer technology as the main tools to study various control strategies, theories, methods and technologies of control systems. Control theory is an important foundation and core content of this discipline; Control engineering is the background, motivation and development goal of the discipline.
4. Detection technology and automation device is a two disciplines under the discipline of control science and engineering. Mastering the solid theoretical foundation and systematic professional knowledge in this scientific field is one of the important foundations and core contents of the discipline of detection technology and automation device and its engineering application. With the rapid development of national economy, science and technology, and the improvement of professional theory and technical level, the research content and application scope of detection technology and automation device are becoming more and more abundant.
Comparison of Employment between Undergraduate and Postgraduate Students Majoring in Automation
1. Employment competitiveness: Compared with undergraduates, graduate students often have higher competitiveness in the job market. Postgraduates gain deeper professional knowledge and skills through in-depth study and professional research, which makes them more favored by employers when applying for jobs.
2. Career development opportunities: Graduate students usually have broader career development opportunities and job promotion space. Through in-depth research and knowledge accumulation in professional fields, they often get higher-level positions, such as senior engineers, researchers or management positions.
3. Academic research and professional development: Postgraduate training pays more attention to academic research and professional development. They can choose to engage in scientific research, engage in in in-depth research in academia or research institutions, publish academic papers and accumulate rich research experience and academic reputation.
4. Salary level: Generally speaking, the salary level of graduate students is relatively high. Graduate students usually get better salary in employment negotiation because of their deeper professional knowledge and research ability.
5. Choice of employment direction: Undergraduate students and graduate students have different employment directions. Undergraduate students are usually engaged in engineering practice and project management, such as automation engineers and control system engineers. Postgraduates are more likely to enter scientific research institutions, universities or interdisciplinary fields to engage in research, development and teaching.