Basic Duration: Four Years | Enrollment: | Education: Junior College | Specialty Code: 080714T
Cultivation Objectives
Cultivation Objectives
Specialty Code: 080714T
Granted Degree: Bachelor of Engineering
Year of Study: Four Years
Offering Courses:
Main subjects: Electronic Science and Technology, Computer Science and Technology. Main Courses: Principles of Circuit Analysis, Electronic Circuits, Digital Circuits, Algorithms and Data Structures, and Computer Fundamentals.
Similar majors:
Electronic Science and Technology Optical Information Science and Technology Information Security Optoelectronics Science Telecommunication Engineering and Management Electronic Commerce and Law Information and Computing Science
The main practical teaching links
Including production internships, graduation dissertations and so on, generally arranged for 10--20 weeks.
Cultivation Objectives
This program is designed to cultivate senior theoretical and technical talents who can adapt to the rapid development of electronic information science, have a good knowledge structure and adaptability, and can be engaged in design and manufacturing, scientific research and development, applied research and technical management in the fields of electronic technology, electronic information science, and electronic information industry and other related fields.
Professional Training Requirements
The students of this program mainly study the basic theories and basic knowledge in the field of electronic information science and technology and related professions, have a solid foundation in mathematics and science, receive good training in scientific thinking, scientific experimentation and preliminary scientific research, and systematically master the basic theories and basic skills of electronic information science and technology.
Specialized knowledge and ability of graduates
1. Master the basic theories and basic knowledge of mathematics and physics; 2. Master the basic theories, basic knowledge and basic skills and methods of electronic information science and technology, computer science and technology; 3. Understand the general principles and knowledge of similar majors; 4. Familiar with the national policies on the electronic information industry and the laws and regulations concerning intellectual property rights at home and abroad; 5. Familiar with the national electronic information industry policy and domestic and foreign laws and regulations related to intellectual property rights; 5. Understand the theoretical frontiers, application prospects and latest development of electronic information science and technology, as well as the development of the electronic information industry; 6. Master the basic methods of data query, literature search and the use of modern information technology to obtain relevant information; 7. Have a certain degree of technical design, summarize, collate and analyze the results of the experiments, write papers, and participate in the capacity of academic exchanges.
Occupational Ability Requirements
Occupational Ability Requirements
Main Contents of Specialized Teaching
Main Contents of Specialized Teaching
"Analog Circuit Fundamentals", "Electromagnetic Fields and Electromagnetic Wave Technology", "Sensor Technology and Application", "Principles of Microcontroller System", "Digital Circuit Logic Design", "Wireless Sensor Network", "Wireless Sensor Network", and "SQLSERVER Database Application Technology". SQLSERVER Database Application Technology", "Semiconductor Physics", "Principles of Circuit Analysis", "DSP Technology and Applications", "Fiber Optic Sensing Technology", "High Frequency Electronic Circuits" Some colleges and universities are trained according to the following professional directions: embedded, automotive electronics, communications technology, Internet of Things technology, electronic information engineering, mobile communications technology, vacuum electronics technology, marine electronics and electrical engineering.
Professional (Skills) Direction
Professional (Skills) Direction
Electronics enterprises: product design, manufacturing, product assembly, equipment debugging, product testing, equipment operation, equipment maintenance, production management, maintenance management; communications enterprises: system development, technical support, communications technology, information processing.
Examples of vocational qualification certificates
Examples of vocational qualification certificates
Examples of further study majors
Employment direction
Employment direction
Corresponding occupations (positions)
Corresponding occupations (positions)
Other information:Thanks for your invitation~2019 just took the Exam dog a ~
I myself undergraduate is also electronic science and technology, because I want to continue to further study, graduate school and did not change the specialty! Electronic science and technology below a lot of secondary disciplines: physical electronics, circuits and systems, microelectronics and solid state electronics, electromagnetic fields and microwave technology.
Look at what direction you are interested in, I want to hardware and software can be contacted in graduate school, so apply for the circuit and system, because the other direction can be said to be more directional it! But it does have to do with the mentor you apply to, usually he has topics under him in different directions, depending on what you want to pick! Make sure you pick a good mentor!!! Here is a brief introduction to my major:
The discipline of circuits and systems studies the theory, analysis, testing, design and physical realization of circuits and systems. It is the bridge between the two disciplines of information and communication engineering and electronic science and technology, and is the theoretical and technological basis for the research and development of signal and information processing, communications, control, computers, and even power, electronics and other aspects of research and development. Main directions: image processing and imaging technology, mainly for image processing, pattern recognition, video signal processing, stereo vision and other research; embedded systems, mainly for Linux systems, embedded technology and its application software research and development; intelligent control systems, mainly for automatic program control, wireless telemetry remote control, micro-control modules, PLC applications, frequency conversion speed control technology applications and electromechanical Integration engineering application research; modern electronic design, to carry out FPGA, DSP, software radio and other research.
This professional employment is quite wide, because it involves the direction of the more popular now, the graduate school can consider! Finally po about my development board in the study:
I am a Xi'an University of Electronic Science and Technology, electronic information engineering students, about electronic information science and technology, I will briefly say my own views on it, to attract jade.
Electronic information science and technology belongs to the class of electronic information, the direction of the examination is preferred to the class of electronic information, and other relevant directions can also be chosen.
First of all, electronic information science and technology counterpart of the direction of the examination. Contains: electronic science and technology, physical electronics, circuits and systems, microelectronics and solid state electronics, electromagnetic field and microwave technology, information and communication engineering, communication and information systems, signal and information processing, control science and engineering, control theory and control engineering. Which direction to choose for graduate school, depends entirely on their own interests Look at what they like to go to the test, because engaging in scientific research is a relatively lonely and arduous process, if they do not like, then they end up making their own pain, but also very helpless.
Below I will briefly introduce our school electronic science and technology and information and communication engineering direction it.
Electronic science and technology is the first level of national key disciplines, the discipline for the national "211 project", "985 project advantageous disciplines innovation platform", "111 program discipline innovation and intelligence base This discipline is the key construction discipline of national "211 project", "985 project superior discipline innovation platform", "111 program discipline innovation base". Its cultivation direction mainly includes: big data intelligent perception and image analysis, nonlinear circuits and signal integrity, computational intelligence and machine learning, antenna and microwave theory and technology, electronic information countermeasures and resistance, integrated circuit design and new semiconductor materials, infrared and optoelectronic imaging technology.
Information and Communication Engineering mainly cultivates senior engineering and technical talents engaged in the direction of communication engineering, electronic information engineering, circuit and system engineering, electromagnetic field and microwave engineering, photoelectric engineering. With the continuous improvement of the level of electronic technology, electronic technology is evolving to photonics technology, photonics technology and electronic technology, communications and computers, a close collection, to promote the rapid development of communications in the direction of all-optical, to build a new network society and the digital age.
This sharing ends.
Reference:
The million gold oil of electronic information major, both employment and graduate school, there are a large number of available options!
But from the side of the graduate school students, the vast majority of students continue to continue in the electronic information within the direction of the major to continue to study, across the first level of discipline or less. The main several professional direction then as follows:
Electronic information and communication engineering
After all, they have learned four years of the old profession, and from the employment prospects and so on, the electronic information profession itself is a very good choice. Whether you work directly after graduate school, or towards the academic circle of the road to choose to continue to study, is a promising place.
Computer Science and Technology
Electronic information and computer science can now be said to be the brother of the profession (photoelectricity will not talk about, to be honest, from the orthodoxy of the words, photoelectricity is a no matter what is not a class of the product, but the professional direction of the development of the momentum in the country is still very impressive), after graduate school, masters of telecommunication students to do the job basically is the work of the programmer's content, knocking the code do software or web development. Especially in the case of artificial intelligence is very popular, electronic information gradually appear weak situation. But telecommunications as a very basic discipline, its heritage will not be eroded.
Automation and control
In some colleges and universities, electronic information is subordinate to the control of the following, so it is not difficult to see the relationship between the two, but then again, I personally feel that a large part of the control of the students in the computer side of the work, crying!
Currently, the importance of cross-disciplinary is becoming more and more obvious, both in academic circles and in industry, the relationship between the various disciplines is becoming closer and closer, and electronic information and computer technology, the two of the penetration of other disciplines and industries is more obvious, you can see that whether it is the biological sciences, or the field of the economy, there are these two figures.
But in retrospect, the choice of which profession to enroll in, or to look at personal preferences and future career planning, rather than meditating on wandering between professions, it is better to spend a little more time to think about their own planning, if the target direction is clear, and then go to find the path, it should be much more motivated.
Respondent telecommunication professional senior student a
Electronic information science and technology as a primary discipline, which contains four secondary disciplines: circuits and systems, electromagnetic fields and microwave technology, physical electronics, microelectronics and solid state electronics. As the direction of the examination can also be examined some of the interdisciplinary and information. Nowadays, the direction of more applications are mainly the following:
1, electronic communications engineering: electronic science and technology and information technology combined to build a modern information society in the field of engineering, the use of electronic science and technology and information technology to solve the basic theories of electronic components, integrated circuits, electronic control, instrumentation, computer design and manufacturing and electronics and communications engineering related fields of technology The program utilizes the basic theories of electronic science and technology and information technology to solve technical problems in electronic components, integrated circuits, electronic control instruments, computer design and manufacturing, and related fields of electronic and communication engineering, and studies the theories and technologies of detecting, transmitting, exchanging, processing and displaying electronic information. After graduation, they can be engaged in the design and maintenance of communication networks in communication enterprises and institutions, and can be engaged in the construction and supervision of communication systems as well as the production and marketing of communication equipment.
2, circuits and systems: the study of circuits and systems theory, analysis, testing, design and physical realization, it is information and communication engineering and electronic science and technology between the two disciplines of the bridge, it is signal and information processing, communications, control, computers, and even electric power, electronics, and other aspects of the theoretical and technological basis for research and development. Circuits and systems disciplines due to the strong support, it is possible to make the most effective use of modern electronic science and technology and the latest devices to achieve complex, high-performance information and communication networks and systems. More popular today are automatic control systems, visual recognition systems and other disciplines.
3, communication and information systems: communication and information systems is the main pillar of the information society, is an important part of the modern high-tech, is the national economy of the country's nervous system and lifeblood. The main object is to information acquisition, information transmission and exchange, information networks, information processing and information control as the main body of all kinds of communication and information systems. Employment prospects are also relatively good.
The senior electronic information students to answer a wave.
Electronic information science and technology is mainly the study of electronic technology, computer technology and signal processing technology cross-type specialties. It is more in line with the current development needs. As far as the complexity of the subject is concerned, the main courses cover a wide range of areas and may be slightly more difficult to understand.
This program is mainly affiliated with the electronic science and technology, and optical engineering, relative can apply for the corresponding secondary specialties.
For the first-level discipline of electronic science and technology, its subordinate specialties may include circuits and systems, electromagnetic fields and microwave technology, physical electronics, microelectronics and solid state electronics.
Circuits and systems can be relatively wide learning surface, from basic circuits to high-frequency circuits, and then high-frequency circuits, image processing, machine learning and other aspects are involved.
Electromagnetic field and microwave technology mainly on radio frequency circuits as well as antenna technology research, its specialization is relatively strong, the threshold is relatively high.
Physical electronics and microelectronics and solid state physics is more inclined to chip and other semiconductor direction. For the development of the current situation, it is a more sought-after direction.
As for optical engineering, its direction is mainly to study a variety of optical engineering application technology. Huazhong University of Science and Technology in optical engineering is more powerful.
In short, different secondary disciplines, even if the same belongs to the same first-level disciplines, but there may be big differences. And, the research direction of different teachers may also have a big difference, so, in terms of graduate school, not in the choice of specialty, but in the choice of teachers' research direction.
Lastly, thanks for adopting.