Electronic Science and Technology
Training objectives: to cultivate senior engineering and technical personnel with broad theoretical basis, experimental ability and professional knowledge in the field of optoelectronics and microelectronics, who are engaged in the design and development of optoelectronic materials, devices, integrated circuits and optoelectronic systems, computer applications, information acquisition and transmission, etc.
Main courses: Circuits, Analog Electronic Technology, Digital Electronic Technology, Signals and Systems, Microelectronic Technology, Optoelectronic Technology, Electronic Circuit CAD, Engineering Optics, Integrated Circuit Design, Microcomputer Principle and Application, Semiconductor Physics, Laser Principle, Digital Image Processing, Embedded Systems, etc.
Employment Outlooks: Graduates can be engaged in research, development, teaching and management of circuit design, electronic information processing, optoelectronic equipment, microelectronic devices, integrated circuits, optical communication and optical information processing.
Optoelectronic Information Science and Engineering
Training objectives: to cultivate high-quality applied talents with basic theories, basic knowledge and basic skills of Optoelectronic Information Science and Engineering, familiar with optoelectronic information technology, modern electronic technology, modern communication technology, computer and network technology, and able to engage in scientific research, product development, engineering design, teaching, production and management in Optoelectronic Information Science and Engineering.
Main courses: College Physics, Basic Optics, Signals and System, Circuit Analysis, Analog Electronic Technology, Digital Electronic Technology, Information Optics, Communications Principle, Engineering Optics, Optoelectronic Technology, Photoelectric Image Processing Technology, Optical Fiber Communication, Laser Principle and Technology, Single Chip Microcomputer Principle and Application, Digital Signal Processing, Optical Fiber Sensing Technology, Theoretical Physics, Mathematical Physics Method, Computer and Network Technology, etc.
Employment Outlooks: Graduates can be engaged in scientific research, technology development, product design, production technology or management in the fields of optical information processing technology, optoelectronic technology, optical communication technology, optical design and development technology, as well as related electronic information technology and computer technology in government departments, enterprises and institutions.
Electronic Information Science and Technology
Training objectives: to cultivate senior theoretical and technical talents with basic theories, basic knowledge and basic skills of electronic information science and technology, familiar with modern electronic technology, modern communication technology, computer technology and network technology, and able to be engaged in design and manufacturing, scientific research and development, application research and technical management in electronic, information industry and other related fields.
Main courses: College Physics, Circuit Analysis, Signals and System, Analog Electronic Technology, Digital Electronic Technology, Communication Principle, Single Chip Microcomputer Principle and Application, Sensor and Detection Technology, Programmable Device Principle and Application, Embedded Principle, Electronic Design Automation, Digital Signal Processing, RFID (Radio Frequency Identification) Principle and Application, Integrated Power System Principle, Optoelectronic Technology, Optoelectronic Image Processing Technology, Optical Fiber Communication, Semiconductor Physics, Computer and Network Technology, etc.
Employment Outlooks: Graduates can go to government departments or enterprises to engage in the scientific research, scientific and technological development, product design, production technology or management of electronic technology, communication technology, electronic design and development technology and related photoelectric information technology and computer technology, etc.
Electronic Information
(Electronic Information Engineering and Communication Engineering included)
Electronic Information Engineering (Famous Brand Specialty of Guangdong)
Training objectives: This specialty is a brand of Guangdong province and a specialty of SCAU. It aims to to train advanced engineering professionals who can master the basic knowledge of electronic technology, communication technology and information systems, and who can also engage in the research, design, manufacture and application of various electronic technologies.
Main Courses: Embedded Linux System(ARM9), Embedded Measurement and Control Technology(Cotex-M), Digital Image Processing (DSP), Programmable Logic Devices (FPGA), Microcontroller Principles and Interface Technology, Communication Electronics, Digital Communication Principles, Digital Signal Processing, Analog Electronics, Digital Electronics, Circuit Theory, Signals and Systems, Electromagnetic Fields and Electromagnetic Waves, Computer Networks, C Language, Program Design, etc.
Employment Outlooks: Graduates mainly work on the design, development, manufacture or application of new electronic equipment in various electronic enterprises and institutions, or on related scientific research, engineering, teaching and management in scientific research institutes, universities and colleges.
Communication Engineering
Training objectives: to cultivate senior engineering professionals with an innovative mind and engineering practice ability who have a comprehensive development of moral, intellectual and physical skills, and have a solid grasp of basic theoretical knowledge and skills in communication engineering and related professions.
Main courses: Circuits, Analog Electronics, Digital Electronics, Signals and Systems, Electromagnetic Fields and Electromagnetic Waves, Communication Electronics, Digital Communication Principles, Digital Signal Processing, Computer Network Technology, Microcontroller Principles and Interface Technology, Mobile Communication, Digital Image Processing, Fiber-optic Communication, Communication Networks, Embedded Systems, Wireless Network Technology, Internet of Things Technology.
Employment Outlooks: Graduates can engage in the research, design, development, testing, operation management and engineering applications of modern communication systems, communication networks and signal and information processing in electric power, telecommunications, and other systems.
Artificial Intelligence
Training objectives: to cultivate applied and scientific research-oriented graduates with a combination of theoretical, technical, applied and cross-disciplinary knowledge of artificial intelligence, who are able to work on product development, design and technical support in the fields of electronic information, computer, automation, intelligent agriculture and other fields.
Main courses: Introduction to Artificial Intelligence, C++Programming, Python Programming, Optimization Methods, Computer Vision, Machine Learning, Deep Learning, Sensor Technology, Cloud Computing and Big Data Technology, etc.
Employment Outlooks: Graduates can work in the IT industry on the search, computer vision, pattern recognition and other product development, design, technical support and other work. They can also work in traditional industries such as industry, agriculture, business, finance and education to achieve AI+empowerment upgrades.