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Nowadays, many courses are not understood, and it is related to the foundation of mathematics you learned in college, one is advanced mathematics, and the other is the complex variable function and integral transformation in engineering mathematics, although this course is not a professional course, but it is very useful for learning signals and communication;
In addition, it is recommended that you study the circuit analysis course more, especially the complex frequency domain analysis (JWC and JWL, etc.), many models in the signal and system courses are based on circuits, signals and systems, many people do not understand at all, the most important thing is because of the lack of mathematical foundation, which involves Fourier series and Fourier transforms, as well as many Fourier transform properties, as well as Laplace changes and z changes in discrete systems, etc., Laplace change is also a key point in the principle of automatic control, the most difficult is probably the principle of communication, it is estimated that there are very few people who can learn well, but this course is very important for students who plan to take the graduate school in communication in the future, and then you will learn digital signal processing in the future, it will be even more difficult, and you have to rely on the previous mathematical foundation and signal knowledge.
Look at you should be a sophomore now, it's still too late, what kind of microcontroller is talking downstairs, programming and the like, many of those are practical hands-on ability, if the theoretical knowledge is not enough, how strong will the hands-on ability be?
Therefore, if you learn advanced mathematics, circuit analysis, complex variable functions and integral transformations, you will have a good path in the future.
Because these courses are the foundation of the difficult ones in the telecommunications major.
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As far as the undergraduate of electronic information engineering is concerned, the depth of course learning is completely insufficient, except for a few important basic courses, the others can only lay the foundation for further study, which is basically useless (forget after learning).
If you don't want to take the postgraduate examination, you should learn this major or do more practical operations, play with single-chip microcomputers, analog digital circuits, FPGA or something, draw circuit boards with protel or something, and then program and contact more chips. In the optics book, when you graduate, you still won't know anything.
If you want to take the graduate school entrance examination, hehe, eat books in the classroom every day, it's all such a process. If you can find time to strengthen your hands-on ability, then the master supervisors will ask you by name (to be a "coolie", haha).
Don't use the same set of high school as in college study, there is no market for "rote memorization + test scores", do you take a stack of 100-point papers, and the company will want you?
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High Numbers, Circuit Analysis, Complex Functions and Integral Transformations.
If you want to go to graduate school, you must learn well, the so-called theoretical knowledge must be learned to a certain depth to be useful, and it may be useful to do IC design or system-on-chip design, and these generally require a doctor's level.
If you work after graduating from undergraduate, you will definitely forget about these theories in 2 years, making products and doing research are not the same, he doesn't need such advanced theories, because chips and modules are good, and you can use them well.
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On the top floor, I feel the same way, and I will ask you for you when I go to the company with my transcript from time to time. People want to see how much expertise you have! The company is not a school, and he won't let you go to the company to learn again, so hurry up, junior!
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Summary. Hello, electronic information engineering is difficult to learn, and electronic information engineering is indeed a challenging major. Studying electronic information engineering requires a solid foundation in mathematics and physics, as well as an in-depth understanding of computer and electronic technology.
In the learning process, you need to master a lot of complex circuit and system design principles, and you need a lot of practical operations and experiments. In addition, it is also necessary to pay attention to the study of English when studying electronic information engineering, because many academic studies and technical documents are written in English.
What knowledge do you need to learn about electronic information engineering?
Hello, electronic information engineering is very difficult to learn, electronic information engineering is indeed a challenging major. Studying electronic information engineering requires a solid foundation in mathematics and physics, as well as an in-depth understanding of computer and electronic technology. In the learning process, you need to master a lot of complex circuit and system design principles, and you need a lot of practical operations and experiments.
In addition, it is also necessary to pay attention to the study of English when studying electrical and technical engineering, because many academic research and technical documents are written in English.
Electronic information engineering is a very broad discipline, including analog circuits, digital circuits, communication systems, microelectronics and other disciplines. Studying electronic information engineering requires the ability to learn independently and improve, because technology is constantly updated and changing, and continuous learning and research are required. It is also necessary to pay attention to the learning of practical operation and application, and to try some practical projects and experiments, not only limited to pure tremor and theory in front of books.
At the same time, you can join some electronic engineering-related clubs and participate in competitions to exercise your skills and practical experience. <>
Hello, the basic knowledge that deep learning electronic information engineering needs to master includes mathematics, programming and electronic search and judgment engineering. Among them, the knowledge required in mathematics includes linear algebra, calculus and probability theory. Programming requires familiarity with at least one programming language, such as Python or C++, as well as familiarity with various deep learning frameworks, such as TensorFlow, PyTorch, etc.; The knowledge required in electronic engineering includes electronic circuits, signal processing, etc. Mastering these basic knowledge can help students better understand the theory and practice of deep learning algorithms, and be able to better apply deep learning algorithms in practical work.
If you are not good at physics, can you study electronic information engineering well?
Kiss, I can't learn well.
Which computer class is more popular the older it gets?
Kisses, such as computer science, software engineering, information security, etc.
Which one doesn't eat the rice of youth?
Dear, computer majors all need to eat youth.
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Hello! Personally, I think it is more difficult, it needs to involve a lot of physics and mathematics knowledge, on the question of whether electronic information engineering is difficult to learn, I can give you some advice. Electronic information engineering is a discipline that involves many fields such as electronic technology, communication technology, and computer technology, and its difficulty will vary depending on the individual's interests, basic knowledge, and learning ability.
For those who have a keen interest and enjoy technical challenges, electronic information engineering can be a very interesting subject. By learning about electronic circuits, communication principles, digital signal processing, and more, you'll be able to gain an in-depth understanding of the principles of electronic devices and communication systems, and even get involved in innovative research and development. However, electronic information engineering is also a relatively complex and technology-intensive discipline that requires a certain foundation in mathematics, physics, and computers.
For some people who don't have relevant background knowledge or are not interested in technology, it may find it difficult to learn. However, no matter what your background is, as long as you have enough interest and hard work, I believe you will be able to overcome difficulties and achieve good academic results. It is important to maintain a positive attitude towards learning, seek help and support, make good use of the resources of the school and teachers, participate in practices and projects, and continuously improve your skills and knowledge.
Hope this helps. If you have any other questions, feel free to let me know. Good luck with your studies!
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