What is the employment direction of electronic information major?

The employment direction of electronic information major is as follows:

First, the employment direction of electronic information engineering

1, signal processing direction.

Include image processing, pattern recognition, etc.

2. Multimedia direction.

Various audio and video codecs, such as mpeg2, mpeg4, h.264 and h.263, are mainly developed on ARM, DSP and windows.

3. Power supply.

Power supply belongs to analog circuit, including linear power supply, switching power supply, transformer and so on. Power supply is an important part of any circuit.

4. RF and microwave circuits.

That is, radio electronic circuits. Include antennas, microwave solid-state circuits, and the like. Belonging to a high-frequency analog circuit. It is one of the core parts of various communication systems.

5. Signal processing.

This includes image processing and pattern recognition. This requires some mathematical knowledge, mainly matrix algebra, probability and stochastic process, Fourier analysis. It is very attractive to extract the components we are interested in from a group of chaotic signals, which means something like artificial intelligence. Such as radar signal synthesis, image transformation, CT scanning, license plate, face, fingerprint recognition and so on.

6. Microelectronics direction.

The design and manufacture of integrated circuits are divided into front end and back end. The front-end focuses on functional design, and the development of FPGA(CPLD) can also be regarded as the front-end design, while the back-end focuses on the realization of physical layout.

Second, what is electronic information engineering?

Electronic information engineering major is to learn basic circuit knowledge and master the method of processing information with computer.

First of all, we must have solid mathematical knowledge and high requirements for physics, mainly electricity; It is necessary to learn many basic courses such as circuit knowledge, electrician foundation, electronic technology, signal and system, computer control principle, communication principle, etc.

To study electronic information engineering, you have to design, connect some circuits and conduct experiments with computers. The requirements for hands-on operation and use of tools are also relatively high.

For example, I will connect the circuit of the sensor myself, build a small communication system with a computer, visit the electronic and information processing equipment of some big companies, understand how the mobile phone signal and cable TV are transmitted, and have the opportunity to participate in large-scale engineering design under the guidance of teachers. To learn electronic information engineering, you should like to study and think, and be good at finding problems with your brain.