Drawing on advanced engineering education experiences from both domestic and international sources, this program aims to cultivate outstanding electronic engineers who, in an authentic modern corporate team environment, possess engineering technical knowledge and practical engineering experience, adapt to economic and social development, and are capable of leading or participating in the design, construction, and operation of complex electronic systems.
This program is a National First-Class Undergraduate Program. Basic Circuit Theory is a National First-Class Undergraduate offline course.
Supported by the Guangdong Provincial Key Laboratory of Digital Signal and Image Processing, which provides robust resources and ensures undergraduate students have access to laboratory facilities.
Featured courses include: Artificial Intelligence and Robotics, Digital Image Processing, Theory and Applications of Intelligent Computing, Python and Data Science, Computer Control Technology, Embedded Systems and Applications, FPGA Based System Design, and more.
The program spans four years and follows a "3+1" training model: the first three years are spent on campus for theoretical and practical study, while the fourth year involves joint training at an enterprise, where students participate in the development of new products. The results of this work serve as their graduation project.
During on-campus study, inquiry-based teaching methods are adopted, along with an integrated training model that combines knowledge acquisition with practical projects, ensuring that theory is linked to practice and learning is applied effectively.
During the industry-based training period, students receive dual guidance from both a university supervisor and an industry supervisor. The university supervisor is a senior professor in the field of communication engineering, while the industry supervisor is a high-level expert from the enterprise.
Under the joint guidance of both supervisors, students work on real communication products in the enterprise's R&D environment. They apply their knowledge to solve practical problems encountered in product development, thereby strengthening their integrative thinking skills, engineering innovation capabilities, engineering design abilities, and engineering practice competencies, ultimately enhancing their overall competitiveness.
The Excellent Engineer Class operates under a limited dynamic management mechanism. A small number of students who fail to meet the requirements of the "Excellent Engineer Training Program" may be transferred to the regular class of the same major to continue their studies.
