What are the advantages of electronic information engineering?

A. What career is suitable for electronic information engineering after graduation?

After graduation, the major of electronic

What are the advantages of electronic information engineering?

A. What career is suitable for electronic information engineering after graduation?

After graduation, the major of electronic information engineering is suitable for the research, design, remanufacturing, application and development of various electronic equipment and information systems. answer

IT is an important employment direction for graduates majoring in electronic information engineering technology to enter IT enterprises, mainly for state-owned enterprises, private enterprises and IT enterprises. They can engage in computer software development, information security, network security and other work in these enterprises very efficiently.

The demand for talents in the information industry is first of all basic "skills", including the basic ability of computer programming, which requires good knowledge and skills of databases and computer networks and familiarity with basic software development platforms. With the information industry entering the era of "application" as the mainstream, high-level practitioners should not only master the basic "skills", but also have the ability to refine practical problems into computational problems and solve them, which is the advantage of students majoring in information and computing science.

B. What is the best occupation of electronic information engineering?

From the basic course: English

massive

college physics

circuit

Professional Foundation: Analog Electricity

Electricity quantity

Specialized course: It depends on your hobby. If you lay a good foundation in front, you will not be mediocre in the back.

C. which major is more advantageous in information engineering?

Written in front, not only information engineering majors, but also for each major, I think their existence must have its corresponding value. The unpopular theory of advantages and disadvantages is actually only relative. I can only say which major is more in line with the service area, students' personal interests and so on. I always believe that the decisive factor is people and the environment is less. However, the following is an introduction to help students find a more suitable choice!

I think information engineering majors at this stage can be roughly divided into two categories: traditional majors and emerging interdisciplinary majors. Traditional majors are: electronic information engineering, electronic science and technology, communication engineering, microelectronics science and engineering, photoelectric information science and engineering and information engineering; The new interdisciplinary majors are "diverse". For example, the biomedical engineering majors I am currently studying, such as network information management and Internet of Things, are all interdisciplinary disciplines based on information science and technology.

Before classifying information engineering majors, let me introduce my current biomedical engineering major, which is set up under the School of Information Engineering. Many friends may find it strange that "biomedical engineering" seems to have nothing to do with information engineering except the word "engineering" In fact, this is the result of fixed thinking. First of all, biomedicine also needs to learn from all the subjects learned by traditional engineering, and will not cover up the essence of "information engineering" just because it is "biomedicine". This aspect also reflects the wide application of information engineering in all walks of life. Many new interdisciplinary subjects can be based on information engineering, and they can be used and expanded in disciplinary applications. So the information engineering major, in my opinion, is all-round.

3. Other categories

This part is the discipline introduced before. Based on the professional knowledge of the Department of Information Engineering, it has been applied and expanded in various academic fields, such as computer application, biomedical engineering, network information management and so on. Computer science and technology is also a relatively broad professional category here, which can meet the talent needs of all walks of life and is also a better employment direction. Finally, talk about my employment prospects in biomedical engineering. Its core is to study the state changes of human body system with the help of royal engineering technology. Employment can go to hospitals, research institutes, and even machinery-related positions.

D. What are the employment prospects of electronic information engineering?

Employment prospect of electronic information engineering specialty

Employment direction can be related to electronics, communication, or software, depending on your interest. Some students study telecommunications, others take computer exams, so we have a wide range of employment.

Electronic information engineering with broad prospects

Electronic information engineering is a subject that uses modern technologies such as computers to control and process electronic information. It mainly studies the acquisition and processing of information, the design, development, application and integration of electronic equipment and information systems. Now, electronic information engineering has covered many aspects of society, such as how to deal with all kinds of telephone signals in telephone exchanges, how to transmit our voices and even images by mobile phones, how to transmit data in the networks around us, and even how to keep the information transmission of the military secret in the information age. We can learn some basic knowledge to understand these things, and we can apply more advanced technology to develop new products.

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; Learn many basic courses such as circuit knowledge, 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.

With the deepening of social informatization, most industries need high-paid electronic information engineering professionals. After graduation, students can engage in the design, application development and technical management of electronic equipment and information systems. For example, being an electronic engineer, designing and developing some electronic and communication equipment; Be a software engineer, design and develop all kinds of hardware-related software; Being a project supervisor and planning some large-scale systems requires high experience and knowledge; You can also continue to study as a teacher and engage in scientific research.

The software and hardware of this major are all academic, and they prefer hardware.

Undergraduate employment direction, combined with the actual situation:

The first is research and development, which can be done on hardware, such as power supply design and circuit design and wiring; We can be partial to software, such as programmable logic, single chip microcomputer and embedded assembly. Many college students choose to do technology as their first choice to leave school, fearing to waste what they have learned and feeling that doing technology has a bright future. But no one can say whether doing technology will last a lifetime.

Second, do technical support. This job involves not only certain skills, but also how to deal with people. It depends on whether your personality is suitable or not. Of course, even if you are not very good at this, you can practice step by step.

Third, do quality management and quality inspection. Compared with the first two, this job may not be so hard and life is relatively stable.

Others go to some electronics factories to do some production management and sales, because electronics majors have engineering-related professional backgrounds and have certain advantages over those who study management and sales.

Students who graduated from this major generally work in the Pearl River Delta (such as Shenzhen, Guangzhou, Shanghai, Suzhou and some in Beijing and Dalian), and most of the employers are Taiwanese, Korean and Japanese electronics companies. Well-known and unknown communication-related enterprises such as mobile Huawei also belong to the scope of employment, and some foreign-funded (European and American) enterprises recruit this major. As for the salary, it depends on your school grades, workplace and even personal ability, and the range is about 2K.

1. Electronic information engineering majors learn many things, such as audio technology, microwave antenna technology, TV technology, DSP technology, embedded technology and so on.

If you study single chip microcomputer, you can find a job to develop programming applications with single chip microcomputer. Small enterprises have many small products, and some small products also have their own fun.

If you have the basic knowledge of DSP, you can seek jobs in artificial intelligence, pattern recognition, image processing or data acquisition, neural network and other fields. It will be a pillar of the company in the future!

If you are familiar with ARM, you can become a product development engineer in the fields of portable communication products, handheld computing, multimedia and embedded solutions.

You are familiar with EDA, HDL language, various algorithms, such as FIR, FFT, CPU, etc. At the same time, we can master the application of the latest devices and apply the developed modules with independent intellectual property rights to ASIC.

2. Employment cities

The electronics industry is springing up all over the country. The most developed areas are the Pearl River Delta, such as Shenzhen, Dongguan, Guangzhou and Huizhou.

Shanghai, Suzhou and Kunshan are also very developed.

E. What can electronic information engineering major do in the future?

What can electronic information engineering major do in the future?

1. electronic system: graduates can engage in the research, design, manufacture and management of various electronic information systems such as radar, navigation, communication and guidance, or apply for master's degrees in related disciplines.

2. Information processing: In the research and development field of electronic information processing, we focus on cultivating students' theoretical research and software and hardware design ability of information processing, and master the basic theory and professional knowledge of information acquisition and processing in electronic information systems.

3. Aerospace electronic technology: this major is a wide-caliber professional direction established to adapt to the rapid development of space science and application. Focus on cultivating students' software and hardware design ability of microwave remote sensing and information processing in the field of aerospace electronic information, and master the basic theory and professional knowledge of space electronic information transmission and processing and deep space exploration.

4. Electromagnetic field and microwave: graduates can engage in the research, design, manufacture and management of antenna, electromagnetic field and microwave technology and its application system, or apply for a master's degree in related disciplines.

(5) Extended reading of advantages of electronic information engineering:

Professional knowledge and skills of electronic information engineering:

1, systematically master the extensive technical basic theoretical knowledge in this professional field, and adapt to the extensive work scope 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 equipment;

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, understand the basic knowledge of enterprise management;

5. Understand the theoretical frontiers of electronic equipment 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.

F. Learning the advantages of electronic information engineering

Can engage in communication, electronics. I'm an IT major, and my employment is not bad.

This major has high requirements for mathematics and physics. Usually, high school students are good at physics and mathematics, and their practical ability is also very important. Those who study physics must be better than others in doing experiments and have strong hands-on ability.

Mathematics includes advanced mathematics, linear algebra, complex variable function, probability statistics, discrete mathematics and integral transformation.

Many physics, mainly electricity, college physics, circuits, digital circuits, analog circuits, signal analysis, high-frequency circuits,

It is natural to have a high school physics foundation, so we should pay attention to learning math well. Many theoretical foundations of physics are mathematics. We are all talking in our sleep in physics class because we can't learn math well.

There are also some computer aspects, such as programming basis, data structure, algorithm, single chip microcomputer, operating system, microcomputer and interface technology. Many of these are applied to mathematical knowledge, especially discrete mathematics and physical and electrical knowledge.

Pay special attention to hands-on ability and often do circuits. This major pays special attention to practical ability. In fact, physics is only theoretical. Many times, when some people are looking for a job, you say that you got full marks for four years, but you can't find a decent job in the interview, which means that you have learned nothing. Moreover, although analog circuits and high-frequency circuits are electrical problems, they are difficult to learn, and it is easy to master those knowledge through production.

If you think you are a great person, you might as well take the postgraduate entrance examination, advanced mathematics, linear algebra, probability statistics, and then the most important course is English. Specialized courses are mainly circuits, digital circuits, analog circuits, signal analysis, high-frequency circuits, programming basics, data structures, algorithms, single-chip computers and operating systems, all of which are knowledge of physics and mathematics. Physics is good in this respect.

Study hard. This major is very promising. Be modest and learn from others.

G. which is better, communication engineering or electronic information engineering?

Communication engineering and electronic information engineering.

It is collectively referred to as electronic communication abroad.

Learn almost the same thing.

It's just that there are several different courses in the last semester of junior year.

So for undergraduates,

There is no need to care too much.

Foreign countries are also the same major.

It's just that China people divide it too carefully.

What circuit board?

single chip microcomputer

Embedded development

communication principle

Signals and Systems

You must study.

For graduate students,

Communication can be divided into two directions: hardware and software.

Of course, electronic information mainly focuses on hardware.

Universities are not ranked.

Take Beiyou as an example.

There are too few majors.

Therefore, the overall strength ranking is of course low.

But his whole school is engaged in communication.

The information of the whole school is closely related.

Computer automation

Communication is the top in the country.

Especially communication.

No one in the top three in the country dares to object.

Communication Huangpu

Regardless of Tsinghua's strength. Xidian is very strong in communication security, and the southeast is very strong in mobile.

Depends on which direction you choose

Of course, this is for graduate students.

It has nothing to do with undergraduates.

Undergraduate students don't need to use such abstruse things to learn the basics.

Have the strength to recommend Beiyou.

I'm from Beiyou Brothers School.

Hmm. How interesting

H. is the electronic information engineering major good?

Brief introduction of electronic information engineering specialty

Electronic information engineering is a subject that uses modern technologies such as computers to control and process electronic information. It mainly studies the acquisition and processing of information, the design, development, application and integration of electronic equipment and information systems.

Now, electronic information engineering has covered many aspects of society.

Electronic information engineering is a major integrating modern electronic technology, information technology and communication technology.

This major is electronic information engineering.

Students in this major mainly study signal acquisition and processing, power plant equipment information system and other professional knowledge. Being trained in electronic and information engineering practice, I have the ability to design, develop, apply and integrate electronic equipment and information systems.

Employment direction of electronic information engineering specialty

The employment scope of graduates majoring in electronic information engineering includes: being an electronic engineer, designing and developing some electronic and communication equipment; Be a software engineer, design and develop all kinds of hardware-related software; Be a project manager and plan some large-scale systems; You can continue to study as a teacher or engage in scientific research; Can be engaged in the application and maintenance of electronic information equipment; Can also be engaged in related business positions, the future development focus is on electronic information product manufacturing, software industry and integrated circuits and other industries;

Emerging communication services, such as data communication, multimedia, Internet, telephone information services, mobile phone short messages and other services will also expand rapidly; Also worthy of attention are cultural and technological industries, such as online games. At present, there are four kinds of talents supported by information technology: troubleshooting, equipment and customer service, software and hardware installation, configuration update and system operation, monitoring and maintenance. In addition, there is a great demand for e-commerce and interactive media, database development and software engineering.

Employment prospect of electronic information engineering specialty

With the rapid development of electronic information engineering technology, in order to increase market share, the company's requirements for software or hardware development talents are getting higher and higher, which makes ordinary undergraduate and junior college graduates discouraged or often rejected. Generally speaking, software engineering involves a wide range, the employment market is broad, and the social demand is also the largest among all kinds of majors. General requirements are computer and information related majors, with more than one year of relevant software development experience.

At present, JAVA/J2EE, VC++,. NET and database are still dominant in society. In addition, being familiar with the development of Windows and Linux application platforms and kernels is an advantage in job hunting. Software developers must be familiar with data structure, algorithm design and software engineering ideas. Hardware positions require some experience, and the more experienced candidates, the easier it is to find a suitable job. Due to the weak experience of hardware debugging of recent graduates, it is difficult to get the appreciation of recruiting units.

1. Which major is better for employment, electronic information engineering or electrical engineering and automation?

I have worked in the electrical and automation industry for ten years, and I have met many people in the electronic information industry.

According to my experience:

The advantages of electrical automation are: wider employment, more choices and lower entry threshold.

The disadvantage is that the low threshold leads to the saturation of middle and low-end personnel in the whole industry, and they have a great advantage in technology and ability to have better development.

Relatively speaking, the advantages of electronic information are: horizontal treatment is more generous, belonging to the sunrise industry, so the competition is not particularly fierce (relative to automation)

Disadvantages are: the entry threshold is high. Without special experience and experience, the work development in previous years will be hard and the employment scope will be narrow.

If it is only from the perspective of easy employment after graduation, I recommend you to choose the major of electrical and automatic control, but from more than ten years of work experience, personal interest is too important for science and engineering work. If you are not interested, it is difficult to make outstanding achievements in technical posts, so you should find out which part of knowledge and industry you are really interested in, so that you can do better and better in your field after you start working, because no matter which industry, if you have a high enough technical level.

J. What courses are there for electronic information engineering?

Mathematics courses: advanced mathematics, linear algebra, probability and statistics, complex variable function, mathematical equation,

English classes: college English, professional English,

Political courses: * * theory, * * thought, philosophy, political economy, legal basis, ideological and moral cultivation,

Practical courses: military training, metalworking practice, professional practice,

Circuit courses: circuit analysis, digital circuit, analog circuit, high-frequency circuit, microwave circuit, signal and system, digital signal processing, random signal analysis, image processing, electromagnetic field theory, antenna theory, communication principle, information theory, coding theory, digital communication, television principle, mobile communication, satellite communication, digital video processing and digital switching technology.

Basic knowledge of computer application technology and electronic information engineering technology, but also focus on circuit design, EDA technology, microcomputer principle and interface technology, PLC control technology and application, single chip microcomputer principle and application, embedded system and application, single chip microcomputer data transmission interface expansion technology and application, and other aspects of internship, training and professional skills training.

Professional advantages: Industry experts and enterprise elites are the guarantee of teachers. We have a national training base for electrical, electronic and automation based on embedded system, and have set up a number of teachers' mobile stations and employment bases together with large famous enterprises at home and abroad, with sufficient posts, high employment rate and good development momentum.

Training objective: to train high-end skilled professionals with the ability of electronic product assembly and debugging, who are engaged in technical operation, production management and technical support for electronic information industry manufacturing and service enterprises, and engaged in product manufacturing and testing, production process implementation, production management and technical services.