The employment directions of electronic information majors are as follows:
1. Employment directions of electronic information engineering
1. Signal processing direction.
Including image processing, pattern recognition, etc.
2. Multimedia direction.
Various audio and video encoding and decoding, mpeg2, mpeg4, h.264, h.263. The development platforms are mainly ARM, DSP and windows.
3. Power supply.
Power supplies are analog circuits, including linear power supplies, switching power supplies, transformers, etc. Power supply is an essential part of any circuit.
4. Radio frequency and microwave circuits.
That is, radio electronic circuits. Including antennas, microwave solid-state circuits, etc., which are high-frequency analog circuits. 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 random processes, and Fourier analysis. It is very fascinating to extract the components that we are interested in from a bunch of messy signals, which is a bit like artificial intelligence. Such as radar signal synthesis, various image transformations, CT scanning, license plate, face, fingerprint recognition, etc.
6. Microelectronics direction.
The design and manufacturing of integrated circuits is divided into front-end and back-end. The front-end focuses on functional design, FPGA (CPLD) development can also be counted as front-end design, and the back-end focuses on the implementation of physical layout.
2. What is electronic information engineering?
The electronic information engineering major is mainly about learning basic circuit knowledge and mastering methods of processing information using computers.
First of all, you must have solid mathematical knowledge, and the requirements for physics are also very high, mainly in electricity; you must learn a lot of circuit knowledge, electrical engineering basics, electronic technology, signals and systems, computer control principles, Basic courses such as communication principles.
Studying electronic information engineering requires you 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, you can connect sensor circuits yourself, use computers to set up small communication systems, visit electronic and information processing equipment of some large companies, understand how mobile phone signals and cable TV are transmitted, etc., and be able to Opportunity to participate in large-scale engineering design under the guidance of teachers. To study electronic information engineering, you must like to delve into thinking and be good at using your brain to find problems.