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The "software technology" you are talking about should only be a narrow, user-oriented upper-level software... To be honest, this has a low threshold in the IT industry, and the professional courses offered by schools in this area are uneven. A few of my friends who studied software engineering were depressed.
Electronic information engineering, each school has a different name, but it must be an electrical major. I reported to you the basic course of our school's electronic information engineering major involving microcomputers, and you found that you don't want to learn C, C++ can't - and learn very low-level (because you have to contact single-chip microcomputer, embedded and PCB version), and you want to engage in development in the future. C++ Programming, Data Structures, Computer Logic and Programming, Microcomputer Principles.
You can also learn theories that computer students will never be able to come into contact with, as long as you make good use of them, it will be amazing to say the most obvious examples, for example, you don't know the spectrum shift Fourier transform light will pile ** can you write the kind of software that Tom cat?
It's not uncommon to take 10,000 steps back, take a year of basic courses, and then change majors – at that point, make your own decisions based on what you've seen and heard!
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If you learn embedded, you'll be dealing with programming, and in the future, if you don't want to be embedded, you can go to software.
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Mathematics is the foundation of engineering: "Advanced Mathematics", "Linear Algebra", and "Probability Theory and Mathematical Statistics" will definitely be studied in the first and second years. "Complex Transformation Function" (Complex Transformation This course, some engineering majors may not study, and they will not be admitted to graduate school.)
But it is still very important for students of electronic information).
Professional basic courses: "Analog Electricity", "Digital Electricity", "Signal and System", "C Language" These are the foundations of professional courses, and they are generally placed in the freshman and sophomore years to lay a good foundation for further learning professional knowledge (some schools will also open "EDA" when learning "Digital Electricity" to mainly learn VHDL, and "MATLAB" when learning "Signals and Systems").
Professional courses: "Principles of Communication", "Digital Signal Processing", "DSP", "Principles of Microcomputer", "Electromagnetic Fields and Electromagnetic Waves" These may be studied in the sophomore year, if the school requirements are relatively high, others: there are some political courses, professional guidance and other courses will generally be placed in the freshman and sophomore.
Hope mine is helpful to you.
1. Electronic information engineering is a discipline that applies modern technologies such as computers for electronic information control and information processing, mainly researching the acquisition and processing of information, and the design, development, application and integration of electronic equipment and information systems.
2. The major of electronic information engineering is mainly to learn the basic circuit knowledge and master the methods of processing information with computers. First of all, it is necessary to have a solid knowledge of mathematics, and the requirements for physics are also very high, and mainly in electricity; It is necessary to learn a lot of basic courses such as circuit knowledge, electrical fundamentals, electronic technology, signal and control systems, computer control principles, communication principles, etc. To learn electronic information engineering, you also have to design and connect some electrical circuits and combine them with computers to conduct experiments, and the requirements for hands-on operation and use of tools are also relatively high.
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The curriculum of the electronic information engineering major is roughly as follows: Liang Xing.
The basic courses are: Advanced Mathematics, Linear Algebra, Probability and Statistics, College Physics, Signals and Systems, College English, Professional English, Circuit Analysis, Fundamentals of Electronic Technology, and C Language.
The main courses are: high-frequency electronic technology, electronic measurement technology, communication technology, automatic detection technology, network and office automation technology, multi-chip technology, single-chip microcomputer technology, electronic system design technology, electronic design automation technology, digital signal processing technology, analog circuit destruction and laughter, digital circuit, microcomputer principle, single-chip microcomputer principle and application, ARM embedded system, automatic control, sensor principle and application, electronic and electrical engineering practice and electronic process training and other experimental courses.
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Electronic information engineering technology is a discipline that applies modern technologies such as computers for electronic information control and information processing. Electronic information engineering technology has penetrated into every corner of modern life, mainly studying the acquisition and processing of information, the design, development, application and integration of electronic equipment and information systems. All kinds of manufacturing equipment, communication equipment, monitoring equipment and mechatronic automatic machine equipment in production and life are inseparable from electronic information engineering.
Main courses: Advanced Mathematics, English, Circuit Analysis, Fundamentals of Electronic Technology, C Language, VB Programming, Electronic CAD, High Frequency Electronic Technology, Television Technology, Electronic Measurement Technology, Communication Technology, Automatic Detection Technology, Network and Office Automation Technology, Multi-level Technology, Microcontroller Technology, Electronic System Design Technology, Electronic Design Automation (EDA) Technology, Digital Signal Processing (DSP) Technology and other courses.
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1. Mathematics courses: advanced mathematics, linear algebra, probability and statistics, complex variable functions, mathematical equations, etc.;
2. English courses: college English, professional English, etc.;
3. Political courses: theory, thought, philosophy, economics, legal foundation, ideological and moral cultivation, etc.;
4. Practical courses: military training, metalworking internship, professional internship, etc.;
5. Circuit courses: circuit analysis, digital circuits, analog circuits, high-frequency circuits, microwave circuits; Signal and System, Digital Signal Processing, Random Signal Analysis, Image Processing, Electromagnetic Field Theory, Antenna Theory, Communication Principle, Signal Chain Theory of Communication, Coding Theory, Digital Communication, Television Principle, Mobile Communication, Satellite Communication, Digital Processing, Digital Switching Technology, etc.
Training objectives of electronic information engineering: to cultivate high-level engineering and technical talents who have the basic knowledge of electronic technology and information systems, and can engage in the research, design, manufacturing, application and development of various electronic equipment and information systems. >>>More
Electronic information engineering is a discipline that applies modern technologies such as computers for electronic information control and information processing, mainly studying the acquisition and processing of information, and the design, development, application and integration of electronic equipment and information systems. >>>More
Electronic Information Engineering Technology Major: Cultivating technical talents.
You can ask your classmates about this.
Summary. Kiss <>
I am glad to answer for you, the difference between electronic information engineering and electronic information engineering technology is: the difference between electronic information engineering and electronic information engineering technology is that the former pays more attention to the study of basic theories, scientific research and engineering design, aiming to cultivate senior professionals with a deep foundation and innovation ability, and the latter focuses on the cultivation of practical skills and application ability, aiming to cultivate technical application talents with practical skills and the ability to solve practical problems. >>>More