Educational system: four years
Level: undergraduate course
Degree awarded: Bachelor of Science
Training objectives: This major trains high-quality applied professionals who can meet the needs of social and economic construction and scientific and technological development, have solid basic physical theory and experimental skills, receive basic training in engineering technology, and engage in applied research, product design and technology development in applied physics fields such as information optics and optical communication.
Main courses: advanced mathematics, general physics, theoretical mechanics, thermodynamics and statistical physics, electrodynamics, quantum mechanics, mechanical drawing, photoelectric detection technology, spectral technology and application, optical holography and information processing, laser technology, solid state physics, computational physics, etc.
Practice: This major has set up 34 weeks of practical teaching links such as curriculum design, professional practice, graduation practice, graduation thesis and military training.
Graduation destination: graduates can engage in new product research and development, optical information processing, product performance testing and management in enterprises and institutions in information, testing, communication, transportation, environmental protection, teaching, photoelectric technology and other related industries. Professional Name: Electronic Information Science and Technology
Educational system: four years
Level: undergraduate course
Degree awarded: Bachelor of Science
Training objectives: This major trains applied senior professionals who are adapted to the development of national electronic information industry, have solid theoretical literacy, professional knowledge and skills in electronic information science, have received strict scientific experimental training, and can engage in scientific research, teaching and training, product design, production management and other aspects in the information industry.
Main courses: advanced mathematics, college physics, analog electronic technology, digital electronic technology, microcomputer principle and application, signal and system, electromagnetic field and electromagnetic wave, communication principle, photoelectric technology, digital signal processing (bilingual), integrated circuit design principle, photoelectric image processing, electronic information system software design, etc.
Graduation destination: graduates can engage in scientific research, teaching, product design, scientific and technological development and management in electronic information-related fields in enterprises and institutions, universities and research institutes such as electronic information, computers, microelectronics, communications and optoelectronics.