Electronic information engineering
Subject: Engineering
Category: electrical information category
Professional Name: Electronic Information Engineering
Business training objectives: This major trains senior engineering and technical personnel who have basic knowledge of electronic technology and information systems and can engage in the research, design, manufacture, application and development of various electronic devices and information systems.
Business training requirements: this major is a wide-caliber major in electronic and information engineering. Students in this major mainly study signal acquisition and processing, power plant equipment information system and other professional knowledge. With practical training in electronic and information engineering, I have the basic ability to design, develop, apply and integrate electronic devices and information systems.
Graduates should have the following knowledge and abilities:
1. Systematically master a wide range of technical basic theoretical knowledge in this professional field and adapt to a wide range of work in the field of electronic information engineering;
2. Master the basic theory and experimental technology of electronic circuits, and have the basic ability to analyze and design electronic devices;
3. Master the basic theory and general application methods of information acquisition and processing, and have the basic ability to design, integrate, apply and simulate information systems by computer;
4. Understand the basic principles, policies and regulations of the information industry and the basic knowledge of enterprise management;
5. Understand the theoretical frontiers of electronic devices and information systems, and have the initial ability to research and develop new systems and technologies;
6. Master the basic methods of literature retrieval and information query, and have certain scientific research and practical work ability.
Main subjects: electronic science and technology, information and communication engineering, computer science and technology.
Main courses: circuit theory series, computer technology series, information theory and coding, signal and system, digital signal processing, electromagnetic field theory, automatic control principle, sensing technology, etc.
Main practical teaching links: including course experiment, computer training, course design, production practice, graduation design, etc. Generally, it is required that the practice teaching link should be no less than 30 weeks.
Study time: four years
Degree awarded: Bachelor of Engineering
References:
baike.baidu/view/ 144
What is the employment direction of electronic information engineering?
Employment direction
Relatively speaking, there is a great difference between undergraduate and graduate students. Undergraduate students do less research and development, do more technical support and pre-sales market or after-sales support, and graduate students do more research and development. In terms of industries, there are more operators, such as China Mobile and China Netcom. Some went to foreign companies, such as Siemens and Lucent, some went to state-owned enterprises, such as the National Radio Metrology Center and the Fifth Academy of Aerospace, some went to large companies, such as Huawei, Lenovo and ZTE, and some went to small companies to do research and development. And civil servants. Generally speaking, the employment of this major is good, but there are fewer entrepreneurs.
Career prospects
How to transmit data on the peripheral network, and even how to keep secret in the information transmission of the military in the information age, all involve the application technology of electronic information engineering. You can learn about these things by learning some basic knowledge, and you can apply more advanced technology to develop new products.
China's information industry has a history of ten years. New things and sunrise industries always attract attention. It is for this reason that computer science has quickly become a hot major in colleges and universities. Many students sharpen their heads and drill into the ivory tower, either for interest, to master a skill to make a living, or for better and faster development in the future.
Compared with the popularity of computer major in previous years, the choice of this major gradually tends to be rational and objective. Students and parents are more concerned about a starting point that is more conducive to personal long-term self-development.
What is the difference between applied electronics and electronic information technology? What do you study?
The professional direction of electronic information technology is electronic information product manufacturing, software industry and integrated circuit industry; Emerging communication services, such as data communication, multimedia, Internet, telephone information service, short message service, etc., will also rapidly expand their packages; Also worthy of attention are cultural and technological industries, such as online games. At present, there is a shortage of IT support talents in four categories: troubleshooting, equipment and customer service, software and hardware installation, configuration update and system operation, monitoring and maintenance. In addition, e-commerce and interactive media, database development and software engineering are in great demand.
I am a student of applied electronic technology. I suggest you don't apply for the exam, but apply for the electronic information technology major! For reference only!
What exactly does the electronic information major do?
Electronic information science and technology
Business development goals:
Business training objectives: This major trains senior professionals in electronic information science and technology who have basic theories and knowledge of electronic information science and technology, received rigorous scientific experimental training and preliminary scientific research training, and can engage in scientific research, teaching, scientific research and development, product design, production technology or management in electronic information science and technology, computer science and technology and related fields and administrative departments.
Business training requirements: Students in this major mainly study the basic theory and technology of electronic information science and technology. After training in scientific experiments and scientific thinking, they have the basic ability of applied research and technology development in this discipline and interdisciplinary subjects.
Graduates should have the following knowledge and abilities:
1. Master the basic theories and knowledge of mathematics and physics;
2. Master the basic theories, knowledge, skills and methods of electronic information science and technology and computer science and technology;
3. Understand the general principles and knowledge of similar majors;
4. Familiar with the national electronic information industry policy and domestic and foreign laws and regulations on intellectual property rights;
5. Understand the theoretical frontier, application prospect and latest development trends of electronic information science and technology, as well as the development of electronic information industry;
6. Master the basic methods of information inquiry, document retrieval and obtaining relevant information by using modern information technology; Have certain skills in technical design, summary, collation and analysis of experimental results, writing papers and participating in academic exchanges.
Main course:
Main subjects: electronic science and technology, computer science and technology.
Main courses: circuit analysis principle, electronic circuit, digital circuit, algorithm and data structure, computer foundation, etc.
Main practical teaching links: including production practice and graduation thesis. , usually arranged in 10-20 weeks.
Study time: four years
Degree awarded: Bachelor of Science or Engineering.
Similar majors: electronic information science and technology, optical information science and technology, information security, photoelectric technology, telecommunication engineering and management, electronic commerce and legal information and computing science, electronic technology application, electronic technology application and communication technology.
Distribution organization:
Peking University, Beijing Normal University, Beijing Union University, Beijing University of Posts and Telecommunications, China Agricultural University, Beijing Forestry University, Beijing Institute of Machinery.
Tianjin Nankai University, Civil Aviation Institute of China, Tianjin Normal University
Hebei North China Electric Power University, Hebei Institute of Technology, Hebei University, Yanshan University, Hebei Normal University, Langfang Normal University, Hebei Agricultural University.
Shanxi University, North China University of Science and Technology, Yanbei Normal University, Shanxi Normal University.
Inner Mongolia University, Inner Mongolia Autonomous Region, Inner Mongolia University of Technology
Liaoning University, Dalian Maritime University, Shenyang University, shenyang institute of chemical technology and shenyang ligong university.
Jilin University, Northeast Normal University, changchun university of science and technology, Jilin Agricultural University, northeast china institute of electric power, Jilin Institute of Architecture and Engineering, Beihua University.
Heilongjiang University, Harbin Institute of Technology, Harbin Engineering University, Heilongjiang Institute of Science and Technology, Daqing Petroleum Institute, Harbin Normal University, Mudanjiang Normal University.
Shanghai Fudan University, East China Normal University, Shanghai University, Shanghai University of Science and Technology
Jiangsu Nanjing University, Yangzhou University, Nanjing University of Aeronautics and Astronautics, China University of Mining and Technology, Jiangsu University, Nanjing University of Technology, Huaiyin Teachers College, East China Institute of Shipbuilding Industry, Nanjing University of Science and Technology, Nantong Teachers College.
Ningbo University, Hangzhou Institute of Electronic Technology, Zhejiang Institute of Engineering, Wenzhou Normal University, Zhejiang University, Zhejiang Institute of Science and Technology.
Anhui University of Science and Technology, Huaibei Coal Teachers College, Fuyang Teachers College, Wanxi University, Anqing Teachers College.
Xiamen University, Fujian Normal University, Quanzhou Normal University, Fujian Province
Jiangxi Shangrao Teachers College, Jinggangshan Teachers College, Yichun University, Southern Metallurgy College.
Shandong University, China Ocean University, Yantai University, Qingdao University, Shandong University of Science and Technology, Qingdao Institute of Civil Engineering and Architecture, Laiyang Agricultural College, Shandong University of Technology, Shandong Agricultural University and Shandong Normal University.
Henan Jiaozuo Institute of Technology, Zhengzhou Institute of Technology, Henan Agricultural University, Luoyang Normal University, Zhengzhou University, Henan University and nanyang normal College.
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What will electronic information engineering major do in the future?
This major has a wide range of employment and great application prospects. You can learn about microcontrollers. At that time, I borrowed from Wu Jianying's microcontroller development board. Specific reference experience: jingyan.baidu/...2
Do the main direction of this major, 1) do the circuit. It is also divided into analog circuits, digital circuits and radio frequency circuits. Each direction can be further subdivided. Basically, it is to design or repair circuits in the company's factory. According to the development of assistant engineers, engineers and senior engineers in the future, a few people can be chief engineers. There are fewer people who do analog circuits, such as those who specialize in audio circuits and power supplies. And they belong to more specialized talents. Many people make digital circuits, not only those who design circuit boards (computer motherboards, circuit boards in household appliances, etc.). ), including those who engage in various projects (smart buildings, smart transportation, etc.). There are very few people who make radio frequency circuits, just make all kinds of radio devices (mobile phones, etc.). ), antenna, etc. , are very professional, of course, the income is high first (basically, the more professional, the fewer people do, the greater the difficulty, the higher the income).
2) communicate. Firstly, design communication network and communication protocol; The second is to do engineering, that is, install and debug communication base stations and differential turntable stations. Designing networks and protocols requires a deep foundation, and it is not enough for non-graduate students to add several years of experience. Of course the income is high. It is very hard to often run to the scene when doing engineering.
3) Do signal processing. As the name implies, this requires mathematical skills. Basically, it is programming (matlab), and then transplanted to microcomputer, single chip microcomputer and dsp. Signal processing is also widely used now, such as video, audio, images, various waves in nature ... can be used for signal processing.
It is good to go abroad, but it is not easy to apply for EE graduate students, because the major is hot and there are too many applicants.
20 10 years ... god knows what will happen! As long as radios, televisions, telephones, cars ... and even industry and medical care still exist, electronics will be needed. Of course, a certain direction may be eliminated, such as the analog TV industry.
In fact, the employment direction is not just the above. You can find a job in your favorite major. At present, it seems that working experience in university is more important than major. Because society needs people who can solve practical problems, not just diplomas. For example, you may become a sales representative, a purchasing manager ... or even a civil servant or an accountant.
Which course to take depends on your direction. If you want to take the postgraduate entrance examination, it is basically three major directions: circuit, communication and signal processing. Perhaps the circuit will be divided into low frequency, high frequency, digital and analog; Signal processing can also be divided into image processing, pattern recognition and so on, but there are only three general directions. First of all, English is better. Postgraduate English is similar to CET-6, but the emphasis is different. Advanced mathematics, linear algebra and probability statistics should also be easy to learn. No matter what graduate students you take, these are all national unified examination courses. Signals and systems, basically the postgraduate courses of electricity are all related to him. If you want to take the circuit direction, you should learn the principles of digital circuit, analog circuit, single chip microcomputer and microcomputer (microcomputer interface) well, which is edible even if you don't take the postgraduate entrance examination. If you want to take the direction of RF circuit design (microwave and electromagnetic field), analog circuit, high-frequency circuit, electromagnetic field and microwave technology are key courses. Digital circuit, analog circuit and communication principle are very important courses for graduate students majoring in communication. There is also the direction of signal processing, and digital circuits and digital signal processing are very important.
Some of the above classes are difficult. For example, analog circuits, microwave (antenna) technology, you have never seen and done, and many things are not easy to understand; Signals and systems, communication principles and digital signal processing require a lot of mathematical knowledge. But the requirements for college students are not so high. As long as you can do the problems, many things will be digested in the postgraduate stage. But if you rely on them to find a job, you must improve your hands-on ability, such as programming and debugging circuit boards.
Girls generally have no advantage in studying science and engineering. Mainly, many girls wait for the exam and want it, but they are unwilling to use their hands and brains. However, some girls can chew on textbooks and get high marks, which is beneficial to the postgraduate entrance examination.
Self-study is not recommended. Because of your class ......
What is the major of electronic information engineering?
1. Electronic Information Engineering has two professional degrees, namely, engineering and science, according to the different enrollment plans of the school. 2. Main disciplines: electronic science and technology, information and communication engineering, computer science and technology. Main courses: circuit theory series, computer technology series, information theory and coding, signal and system, digital signal processing, electromagnetic field theory, automatic control principle, sensing technology, etc.
What are the important aspects of electronic information engineering?
My knowledge is limited, and the following is for reference only:
1. Electronic information engineering can be divided into electronic and information modules. Courses to be studied include electronics, computers and information. The curriculum of each school is different, and each school has its own emphasis. Our school is a tragedy, learning almost all courses. English and math you speak are basic courses. Mathematics includes advanced mathematics, linear algebra, probability theory and mathematical statistics, integral transformation, partial differential equations, numerical analysis and so on, which is very useful. As for English, it is enough to be able to read data tables in foreign languages.
You don't need any certificate to learn electronics. It's all clouds. Learning more, doing more and thinking more is king.
There are many competitions in college, depending on your mentality and purpose. What you gain, you lose. If you invest a lot of time and energy, you will certainly gain the corresponding knowledge and skills. You can briefly introduce the more famous competitions:
( 1)、ACM
(2) Freescale smart car
(3) robots
(4) National Electronic Design Competition for College Students (TI Cup, Embedded Competition, etc. )
(5) Mathematical modeling
(6) and so on
4. How to plan
(1), learn the basic theory well, or fail, everything is nonsense.
(2) Learn C language well, and I will open this course when I am a freshman. Remember to be proficient and read the book at least three times. All the programs in the book can be written by yourself.
(3) After learning analog electronic circuits, you can start to teach yourself the single chip microcomputer. Learn the simple ones first, but learn the concepts clearly. Guo Tianxiang is recommended to learn the use of circuit simulation software and circuit design software, such as multisim and Altium Designer.
(4) Take part in competitions or design some small circuits by yourself.
After many choices, I can't make any suggestions at this time.
5, there is no omnipotent major, only more powerful people, these are parallel.
What is the difference between information engineering and electronic information engineering?
One prefers hardware and the other prefers software.
If you don't mind, I recommend both hard and soft, which will be of great help to your future, but you are a little tired.
The computer major is now saturated. After all, many times, you just need to sit in front of the computer to realize various functions of the system or the Internet. Programming is a hard job.
On the other hand, electronic information is much more interesting. Circuit board, circuit analysis and integrated circuit design all need to be realized through practice. Now the technology has reached the programming of hardware by computer language. Some people can only stay in the state of single chip microcomputer because they don't understand computer language (C language).
So the best direction is that you have a certain programming ability, and then focus on electronic information engineering, which will have a wonderful effect on your future.
Finally, I wish you success.
Can you solve your problem?
What does electronic information engineering do?
A major that can take everything, that is, the legendary major that knows everything and is loose. His main study contents are circuit board design and manufacture and communication signal analysis. He has a wide range of employment, such as going to ZTE Huawei and other communication equipment manufacturers, or China Unicom Telecom and other operators, as well as some electronic equipment manufacturers such as BYD, ASUS, BOE and Samsung. Anyway, let's put it this way. Many manufacturing enterprises recruit several students of this major every year. Because most enterprises use electronic circuits, they have a wide range of employment. Don't worry about employment, but you need to worry about employment competition. After all, there are too many students in this major, so you should learn to improve your professional quality. At that time, the ratio of female to male in our class was 3: 1, which was considered as a major with slightly more female engineering students. It has little to do with animation design. Unless you develop it privately, you won't have this knowledge in class.