Excellent Teaching Conditions:
| Name | Equipment Description |
|---|---|
| Modern Teaching Facilities | Theoretical courses are equipped with multimedia teaching equipment, creating a good teaching environment. There are 12 general computer labs, over 500 Lenovo computers, and networked installation areas, making it convenient to access online learning resources. Various educational software has been purchased and installed to effectively promote informatized teaching. In addition to the school library, the Mechatronics Engineering Department also has a dedicated professional reading room, providing professional books and electronic resources to facilitate students’ self-study. |
| Practical Teaching Conditions | The Mechatronics Engineering Department has an electromechanical training center covering more than 3,000 square meters, equipped with complete training conditions, capable of meeting the requirements for newly added majors. It has 4 CNC machining workshops, 180 electrical training stations, industrial robotics training rooms, numerical control programming labs, PLC training labs, robot selection labs, motion control labs, sensor labs, senior motor (high-voltage) training labs, mechanical drawing labs, benchwork training labs, electrical control wiring and installation labs, and 15 equipment maintenance training rooms. |
| Off-Campus Practice Bases | The school has established extensive off-campus internship bases through joint collaboration with enterprises such as Siemens Shanghai Co., Ltd., PeakSmart Intelligent Technology (Suzhou) Co., Ltd., Xinda Electric Co., Ltd., Botek (Shanghai) Vehicle Inspection Automation Co., Ltd., Gongchuang Technology Co., Ltd., Shanghai Ouqi Self-Control Equipment Technology Co., Ltd., and other leading industry enterprises. |
High Technical Content:
Our university’s “Intelligent Manufacturing Technology” professional group is recognized as a first-class higher vocational education program in Shanghai. The core major, “Intelligent Control Technology,” is the most technically rich program within this group. Multiple PhD-level faculty members teach the core courses, which focus on industrial big data, industrial Internet of Things, machine vision, programmable controller technology, industrial robotics, and more.
High Future Income:
According to statistics from our partner companies, the salaries for the four main job roles, all related to design and programming, achieve a post-tax income of over 30,000 yuan within 3 to 5 years.
Future Job Characteristics:
Graduates of this program mainly work in intelligent manufacturing-related production enterprises, taking on roles in installation, programming, commissioning, maintenance, and repair of intelligent manufacturing control systems, as well as pre-sales and post-sales services. They may also work in intelligent manufacturing system equipment management, equipment procurement, and maintenance planning in enterprises and institutions.
Future employment directions are mainly centered around three categories:
- Technical Application Roles: including intelligent control applications and related equipment applications, operation and maintenance of automation equipment and equipment management, development of automated production lines and equipment design.
- Project Development: including electrical auxiliary design, development of automation-related equipment, network engineering operations and related equipment development, project development assistance, auxiliary development and design of automated production lines, comprehensive project management, automation system integration design.
- Sales or Management: sales and after-sales technical support for intelligent automation lines, intelligent equipment management.
In the past three years, the employment rate of graduates from the “Intelligent Manufacturing Technology” professional group has remained above 95%, with over 65% employed in jobs directly related to their major. We have established deep collaborations with leading companies such as Schneider Electric, Shanghai Baowu Group, and have engaged in extensive school-enterprise cooperation with local intelligent manufacturing companies, achieving significant results.
Program Development Support:
Our school is currently establishing an Applied Technology Collaborative Innovation Center, focusing on intelligent control technology as the main application and driven by market demand, with multi-party collaboration. This center provides foundational support for the program and promotes the development of the faculty team.
Curriculum Framework:
The curriculum framework is centered on developing the professional competencies required for intelligent control applications, operations, debugging, maintenance, and auxiliary design. It is composed of five layers:
- General Education Courses
- Professional Foundation Courses
- Core Professional Courses
- Professional Expansion Courses
- Integrated Practical Teaching
The program emphasizes the concept of “learning by doing.” The curriculum framework structure diagram is shown below.
