Cultivation Objectives

This program aims to cultivate graduates who uphold the Party's leadership and adhere to its fundamental principles. It seeks to foster comprehensive development in morality, intelligence, physical fitness, aesthetics, and labor skills while addressing the needs of regional economic and social development. Students in this program will acquire a solid foundation in natural sciences, and engineering fundamentals, as well as core knowledge and basic skills in robotics engineering. They will develop autonomy in learning, professionalism, and the ability to solve complex engineering problems. Graduates will be prepared to work in areas such as robot system design and development, system integration and debugging, application maintenance, technical support, and management in the field of robotics and related industries. They will possess strong practical skills and an innovative spirit.

After approximately five years of practical training, students in this program are expected to achieve the following goals:

1. Have solid basic knowledge of mathematics, physics and basic knowledge and basic skills in the field of robotics engineering, to be able to analyze and express complex engineering problems in robotics engineering and its related fields, and to be able to engage in the design and development of robotics systems, technology integration, system installation, operation, maintenance and management in the fields of automation and robotics technology.

2. Be able to track and master cutting-edge technologies in the field of robotics engineering and related industries, have a certain international vision, and have the ability of systematic thinking and multidisciplinary knowledge cross-fertilization and engineering innovation.

3. Possess a good sense of social responsibility and the concept of sustainable development and be able to comprehensively consider the impact of non-technical factors such as economic, social, legal, safety, ethical, health, environmental, and economic factors when solving complex engineering problems.

4. Have a healthy body and mind and good humanities and science literacy, adhering to the code of ethics of the engineering profession, and possessing teamwork spirit, a sense of cooperation, effective communication and presentation skills, and engineering project management skills.

5. Possess a sense of independent and lifelong learning, the ability of continuous learning, the ability of self-development, and the ability to adapt to social development.

Characteristics

This program combines weak and strong electricity, software and hardware, system integration and device R&D, theoretical research and engineering application, and has special features in automatic control, motor drive, pattern recognition system and so on. It builds a three-dimensional talent cultivation system that organically combines theoretical teaching, comprehensive experiments, engineering practice, system design and enterprise learning, and cultivates robotic engineering talents with solid mathematical and scientific foundations, clear system perspectives, advanced control technologies and excellent engineering capabilities.

Courses

Electrical and Electronic Technology, Python Programming, Basic Principles of Robotics, Principles of Automatic Control, Electrical Control and PLC Application, Industrial Robotics, Robot Driving and Control, Basics of Robot Operating System, Machine Learning, Basics of Embedded System.

Employment

1. Employment direction

Graduates can be engaged in a series of jobs in the future in the direction of large enterprises, vocational colleges, and training institutions, such as technology research, product development, technical services, teaching and research, marketing, and management, as follows:

Enterprises: the future main employment areas of graduates of robotics include artificial intelligence (visual cognition, human-computer interaction), intelligent automobile (unmanned, assisted driving), intelligent medical (medical robots, intelligent medical equipment), intelligent manufacturing (intelligent factories, industrial robots, industrial automation) and other fields, engaged in a series of work such as technology research and development, product design, technical services.

Vocational colleges and training institutions: due to the broader knowledge and stronger comprehensive ability, graduates can choose to go to vocational colleges and robotics training institutions and other fields to engage in a series of work such as robot design and development, technology research, teaching, and training.

Further Studies: Graduates can also choose to go to domestic and foreign universities to further study, to study for a master's degree.

2. Scope of employment

Robotics engineering is one of the new majors supported by the Ministry of Education, which has been widely noticed and recognized by society in recent years. The relationship between this profession and people's production and life has become increasingly close. As robotics engineering is a multidisciplinary cross-disciplinary profession, graduates have a strong institutional design, computer programming ability, and good hands-on ability, which is very favorable to the comprehensive quality of students' cultivation, and the improvement of students' comprehensive ability also largely improves the quality of students' employment.

Robotics is one of the ten key areas of development of China's Made in China 2025 and Strong Nation strategy, according to the "14th Five-Year Plan" Robotics Industry Development Plan "document," the "Thirteenth Five-Year Plan" since China's robotics industry has shown a good momentum of development, industry scale Rapid growth, average annual compound growth rate of about 15%, 2020 robotics industry revenue exceeded 100 billion yuan, industrial robot production reached 212,000 units (sets). Robotics will enter a rapid development stage, and deep into various industries and consumers' personal life. The future development prospects of China's robotics industry are broad. Therefore, it can be said that the employment prospects of this program are very broad.

3. Employment advice

Robotics Engineer: Robotics Engineer is mainly engaged in the design, commissioning and installation of robots, the position exists in large automotive production enterprises, large-scale processing and manufacturing enterprises.

Robot Application Engineer: Robot Application Engineer is mainly responsible for the use of enterprise production robots, to complete the daily production tasks, one needs to be familiar with all kinds of common robot operation and application, such as Mitsubishi, Aiperson, and so on.

Robot Maintenance Engineer: Robot Maintenance Engineer is mainly responsible for the daily maintenance of robots, able to maintain the market common robots and the use of knowledge troubleshooting robots.

Robot Software Engineer: Robot Software Engineer is mainly responsible for the development of the robot control system, according to customer requirements to develop the corresponding function module, responsible for robot software system update, test and release.

Robot Algorithm Engineer: The Robot Algorithm Engineer is mainly responsible for the development of robot algorithms, mathematical modeling of the robot's attitude, development of the robot's attitude control module, and designing and optimizing the robot's implementation of control functions.