1, Huazhong University of Science and Technology: national ranking 1 (professional grade A++); 2. Zhejiang University: ranked second in the country (professional grade A++);

3. National University of Defense Technology: ranked second in the country (professional grade A++); 4. University of Shanghai for Science and Technology: ranked fourth in the country (professional grade A+);

5. Tianjin University: ranked fourth in the country (professional grade A+); 6. Shenzhen University: ranked fourth in the country (professional grade A+);

7. University of Electronic Science and Technology of China: ranked fourth in China (professional grade A+); 8. changchun university of science and technology: ranked fourth in the country (professional grade A+);

9. Nanjing University of Science and Technology: ranked fourth in the country (professional grade A+); 10, Nanjing university of posts and telecommunications: national ranking 10 (professional grade a);

Knowledge expansion:

Introduction to photoelectric information science and engineering

Optoelectronic information science and engineering specialty is characterized by the integration of science and engineering, relying on electronic science and technology, computer science and technology, information and communication engineering and other disciplines. It mainly trains students to master the basic knowledge and skills in the field of optoelectronic information science and technology, and lays a solid foundation for future scientific research, product design and development in the fields of optoelectronic information processing, optoelectronic, electronic information technology and communication technology.

Second, the employment prospects of optoelectronic information science and engineering specialty

Photoelectric information technology is widely used in all walks of life in national economy and national defense construction. In recent years, with the rapid development of photoelectric information technology industry, the demand for employees and talents has increased year by year, which means that the employment prospects of this major are quite good and the employment of graduates is still optimistic.

Photoelectric information technology promotes the development of modern information technology with its extremely fast response speed, extremely wide bandwidth, huge information capacity and extremely high information efficiency and resolution, thus increasing the market share of photoelectric information industry year by year.

In developed countries, the industrial output value related to photoelectric information technology has accounted for more than half of the national economic output value, and the number of employees has increased year by year, and the competitiveness has become stronger and stronger.

In terms of employment, photoelectric information science and engineering majors are mostly oriented to scientific research institutes or high-tech enterprises. The starting point is generally graduate students, and the demand for undergraduates is relatively small, so the market demand is so, which also means that students of this major need to take postgraduate entrance examinations to improve their academic qualifications in order to further improve their employment competitiveness!

Three, photoelectric information science and engineering professional employment direction

Graduates can engage in teaching, scientific research, product research and development, and production technology management in the fields of optics, optoelectronics, laser technology, optical communication technology, optical information processing technology, computer application technology, precision engineering, and information electronics technology. Graduates can pursue further studies in electronic science and technology, physics or engineering to obtain higher degrees.

The technology and industrial direction of the photoelectric industry in the market mainly include: laser, optical fiber, optical communication, optical sensor, photoelectric device, photoelectric detection equipment, microscope, liquid crystal, photovoltaic, optical storage, spectrum and so on.