We say that artificial intelligence is the most typical representative technology in the fourth industrial revolution, that is to say, whoever masters the most advanced technology of artificial intelligence will master the initiative and discourse power of the fourth industrial revolution. However, the development of human intelligence is inseparable from the support of electronic professional technology, because even the most advanced technology needs a carrier, which is basically composed of electronic components. In other words, if there is no electronics major, artificial intelligence is likely to become passive water and a tree without roots. From this perspective, young students majoring in electronic information can be fully qualified for the work of artificial intelligence industry after graduation.
Electronic specialty can be engaged in communication engineering industry, and there is a branch of electronic information specialty called communication engineering. Literally, this branch mainly studies communication engineering. At present, there are two communication companies in China, one is China Mobile and the other is China Telecom. Therefore, there is no problem for young students who are engaged in mobile or telecommunications technology after graduation, and I believe that the treatment they provide will not be bad.
Electronic majors can start with the Internet of Things engineering industry, and graduate students majoring in electronic information have a research direction of neural engineering, and its service direction is mainly the Internet of Things. Internet of things technology is the most advanced science and technology at present. The ultimate breakthrough is to connect highly intelligent equipment or machines with people and accomplish some difficult things through the man-machine internet, such as driverless and smart home, which is the representative of Internet of Things applications. Therefore, young students majoring in electronic information can join the high-end Internet of Things industry after graduation. Students majoring in electronic information will be exposed to a course called "Principles and Program Development of Single Chip Microcomputer" (usually C language development of Single Chip Microcomputer) when they are sophomores or juniors, and then they will be exposed to the circuit and program development shown below.
Single chip microcomputer can be said to be the most popular key chip in all kinds of products in the whole electronic information industry. It also controls various control circuits from remote control toys, various household appliances, automobiles to CT machines. X single-chip microcomputer exists in large industrial electronic equipment, such as optical machines and airplanes, and mainly communicates with external circuits and equipment through various interfaces of peripheral circuits: RS-232, RS-485, CAN, USB, Ethernet, I2C and SPI. So, students, if you have developed the hardware schematic design of single-chip microcomputer control circuit and the development of single-chip microcomputer control program, it is how core and important it is in electronic equipment products.
Responsible for developing the control program in the single chip microcomputer, formulating the communication protocol with the peripheral equipment according to the business process, completing the data transmission and realizing the functions of the whole equipment. Let me give an example of my own work: from 2008 to 20 1 1, I worked as an ETC development equipment. Now everyone knows to drive at high speed in ETC lane. Generally, a box the size of a mobile phone is installed on the windshield of a car, and the communication of the base station antenna in this small box in the ETC lane is completed by taking ETC, so as to complete a series of business process operations such as high-speed fee deduction and control of lane railing release. The small box installed in the car is called OBU (commonly known as ETC electronic tag) in ETC industry, which is a circuit with low power consumption single chip microcomputer as the core. The MCU should control the RF circuit, continuously organize data frames to communicate with ETC lane antenna according to the international standard protocol, and then complete the verification of vehicle information, IC card reading information, IC deduction fee and electronic wallet card inserted by OBU by lane base station antenna. This single chip microcomputer will roughly control these business logic programs.