Freshman course of communication engineering

(1) What courses are there in freshman communication engineering and which courses are the key courses?

To tell the truth, education in China i

Freshman course of communication engineering

(1) What courses are there in freshman communication engineering and which courses are the key courses?

To tell the truth, education in China is very backward, and many courses in universities are useless. Graduated with a GPA.

You have to figure out what you want to do after graduation, and then look for books to study online.

For example:

Programmers (apps on mobile phones and tablets) learn "C language" first, then "JAVA" or "C++", and then learn Android programming and IOS programming. Look online, there are many books.

Firmware programmer (my occupation)-learn "C language" first, then "single chip microcomputer" (and need some basic knowledge of electronics), and then "embedded" (generally based on ARM MCU and Linux operating system).

Electronic engineer-learn "circuit", "analog electricity" and "counting electricity" first, and then learn to draw schematic diagrams and PCB with computer (Altium Designer is commonly used software).

RF engineer (radio frequency, wireless)-I don't know this either, but the basic knowledge is still "circuit", "analog electricity" and "digital electricity" (you have to learn these for basic electronic related work).

Besides, you have to learn something related to "communication".

In a word, in China, it's good to cope with many college courses. There is no need to spend too much time. Learn mainly by yourself.

Finally, if you don't know what to study, I'll tell you a way: find recruitment information online. Recruitment requirements often talk about what knowledge is needed for those positions. You can take their recruitment requirements as a reference.

(2) Who knows what courses the communication engineering major should take from freshman to senior?

communication engineering major

Business development goals:

Business training objectives: This major trains senior engineering and technical personnel with knowledge of communication technology, communication system and communication network, who can engage in research, design, manufacture and operation in the field of communication, and engage in the development and application of communication technology and equipment in various departments of national economy and national defense industry.

Business training requirements: Students in this major mainly study the basic theory, composition principle and design method of communication systems and communication networks, receive practical training in communication engineering, and have the basic ability to engage in the design, development, debugging and engineering application of modern communication systems and networks.

Graduates should have the following knowledge and abilities:

1. Master the basic theory and knowledge in the field of communication;

2. Master communication technologies such as light wave, wireless and multimedia;

3. Master the analysis and design methods of communication system and communication network;

4. Have the basic ability to design, develop, debug and apply communication systems and communication networks;

5. Understand the basic principles, policies and regulations of communication system and communication network construction;

6. Master the basic methods of literature retrieval and information query, and have certain scientific research and practical work ability.

Main course:

Main subjects: information and communication engineering, computer science and technology.

Main courses: circuit theory and application series, computer technology series, signal and system, electromagnetic field theory, digital system and logic design, digital signal processing, communication principle, etc.

Main practical teaching links: including computer training, electronic technology practice, circuit comprehensive experiment, production practice, curriculum design, 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

(3) What professional courses should the communication engineering major take?

For undergraduates, communication engineering can be mainly divided into optical communication, that is, optical fiber communication, information engineering, mainly for signal processing, control engineering, communication engineering and so on. Such as electronic circuits, signals and systems, fundamentals of circuit analysis, communication principles, etc.

(4) What are the specific courses for the freshmen of Beihou Communication Engineering?

Freshman last semester: 3 credits for ideological and moral cultivation and legal basis, 2 credits for China's outline of modern history, 0.4 credits for situation and policy, 6 credits for advanced mathematics A/ mathematical analysis (those who scored high in the college entrance examination will be assigned to the mathematical analysis class, generally above 1/2/3 4/3 credits for college English)

As for next semester, I won't talk about it. Soon after I enter school, I will send a training plan, which will tell you about the four-year college courses.

⑤ What courses should communication engineering major take next semester?

Basic courses such as Ma, Mao and Deng in advanced mathematical English must be learned. For your professional courses, it depends on your university situation. Basically, some professional courses must be learned, such as communication principle, digital electricity and analog electricity. Microwave antenna. High frequency circuit. The principle of communication is quite important. When studying, focus on some interesting directions and focus on learning a certain aspect. You can't all learn well. I hope it helps you.

6. What courses do communication engineering majors study?

Main course: Come.

Circuit theory and source application series courses, computer technology series courses, signals and systems, electromagnetic field theory, digital system and logic design, digital signal processing, communication principles, etc.

Core knowledge fields: electronic circuit, digital logic circuit, computer foundation, signal and system, digital signal processing, electromagnetic field and microwave technology, communication principle, communication network theory foundation, modern communication technology, etc.

(6) Extended reading for freshmen of communication engineering:

Related extension: communication engineering major has the ability.

Graduates should have the following knowledge and abilities:

1, master the basic theory and knowledge in the field of communication;

2. Master communication technologies such as light wave, wireless and multimedia;

3. Master the analysis and design methods of communication system and communication network;

4. Have the basic ability to design, develop, debug and apply ICT systems and communication networks;

5, understand the basic principles, policies and regulations of communication system and communication network construction;

6. Understand the latest progress and development trend of communication technology;

7. Master the basic methods of literature retrieval and information query, and have certain scientific research and practical work ability.

All landowners freshman communication engineering what?

Freshmen are all basic courses, English physics and advanced mathematics such as C C++. There is little difference between majors. Specialized courses are generally offered as early as next semester. It doesn't matter much to change your major now. As long as I am interested in my major, it is relatively easy to learn. I study communication.

What courses should communication engineering take?

Hello, landlord, the following are the main courses studied by Communication Engineering University in four years (different schools may have slightly different courses, but they are roughly the same).

Freshman: study some basic courses, such as advanced mathematics, linear algebra, C language, college physics and some public courses, such as college English, politics and physical education.

Sophomore: Focus on professional basic courses, such as circuit analysis, digital circuit, data structure, signal and system, analog electronic circuit, probability theory, microcomputer principle and interface technology, and then English, politics and physical education.

Junior year: I began to study specialized courses, such as communication principle, communication electronic circuit, switching technology, electromagnetic field, mobile communication, optical fiber communication, communication network and digital signal processing.

Senior: There are basically no classes, such as postgraduate entrance examination or finding a job, and then graduation design.

Pet-name ruby communication engineering freshman to learn what courses?

Freshmen are all basic courses, such as advanced mathematics, line number, English, engineering drawing and so on. Sophomore is a professional basic course, and junior is a professional course. This is my major.

Attending what are the main courses of communication engineering?

Here is a word file, which makes it very clear that all schools are similar. You can read it carefully://jwc.nbu.e.cn/jiaoxuhuizhang/jiaoxujihua/%d0% C5% CF% A2% D1%A7% D4% Ba/%CD% A8.

Training scheme for undergraduate students majoring in communication engineering

I. Training objectives

This major trains senior engineers who have knowledge of communication technology, communication system and communication network, can engage in research, design, manufacture and operation in the field of communication, and engage in the development and application of communication technology and equipment in various departments of national economy and national defense industry.

Second, the basic requirements of training

Students in this major mainly study the basic theory, composition principle and design method of communication systems and communication networks. After the training of communication engineering practice, they have the basic ability to engage in the design, development, debugging and engineering application of modern communication systems and networks.

Graduates should have the following knowledge and abilities:

1. Master the basic theory and knowledge in the field of communication;

2. Master communication technologies such as light wave, wireless and multimedia;

3. Master the analysis and design methods of communication system and communication network;

4. Have the basic ability to design, develop, debug and apply communication systems and communication networks;

5. Understand the basic principles, policies and regulations of communication system and communication network construction;

6. Understand the latest progress and development trend of communication technology;

7. Master the basic methods of literature retrieval and information query, and have certain scientific research and practical work ability.

Third, the main courses

Circuit theory and application, computer technology, signal and system, single chip microcomputer principle and application, digital signal processing, communication principle, communication electronic circuit, wireless communication direction, optical communication direction, multimedia communication direction and so on.

Fourth, degree courses.

Signal and system, communication principle, communication electronic circuit.

Verb (abbreviation of verb) minimum credits and graduation requirements

Minimum credit for graduation 160, including required credits (including public * * * basic platform, discipline basic platform and professional basic platform) 102. Students majored in one of the three modules of wireless communication, optical communication and multimedia communication, and got 1 1 credits for this module, and completed 25 credits for professional practice, graduation practice and graduation design. Each graduate must complete 22 credits of elective courses, including 6 credits for cultural quality courses (including 2 credits for the extended courses of "two courses"), 0/2 credits for professional elective courses/kloc-and 4 credits for public elective courses.

Sixth, the academic system

Four years.

Seven. Degree conferring and requirements

Bachelor degree in engineering.

Students must meet the relevant regulations of Ningbo University for awarding bachelor's degree.

Eight, all kinds of courses and credit allocation summary table

Total of required courses and elective courses of course classification: experiment, practice, training and computer.

Public * * * basic platform course discipline basic platform course professional basic platform course subtotal professional direction module course elective course subtotal public * * * basic platform course discipline basic platform course professional direction module course subtotal.

Academic performance 5215.5 34.5102 36 22 58160 25.5 5 28 40.5

Accounting for% 32.59.721.663.822.513.736.21001.33.43.1.

Training scheme for undergraduate students majoring in communication engineering

I. Training objectives

This major trains senior engineers who have knowledge of communication technology, communication system and communication network, can engage in research, design, manufacture and operation in the field of communication, and engage in the development and application of communication technology and equipment in various departments of national economy and national defense industry.

Second, the basic requirements of training

Students in this major mainly study the basic theory, composition principle and design method of communication systems and communication networks. After the training of communication engineering practice, they have the basic ability to engage in the design, development, debugging and engineering application of modern communication systems and networks.

Graduates should have the following knowledge and abilities:

1. Master the basic theory and knowledge in the field of communication;

2. Master communication technologies such as light wave, wireless and multimedia;

3. Master the analysis and design methods of communication system and communication network;

4. Have the basic ability to design, develop, debug and apply communication systems and communication networks;

5. Understand the basic principles, policies and regulations of communication system and communication network construction;

6. Understand the latest progress and development trend of communication technology;

7. Master the basic methods of literature retrieval and information query, and have certain scientific research and practical work ability.

Third, the main courses

Circuit theory and application, computer technology, signal and system, single chip microcomputer principle and application, digital signal processing, communication principle, communication electronic circuit, wireless communication direction, optical communication direction, multimedia communication direction and so on.

Fourth, degree courses.

Signal and system, communication principle, communication electronic circuit.

Verb (abbreviation of verb) minimum credits and graduation requirements

Minimum credit for graduation 160, including required credits (including public * * * basic platform, discipline basic platform and professional basic platform) 102. Students majored in one of the three modules of wireless communication, optical communication and multimedia communication, and got 1 1 credits for this module, and completed 25 credits for professional practice, graduation practice and graduation design. Each graduate must complete 22 credits of elective courses, including 6 credits for cultural quality courses (including 2 credits for the extended courses of "two courses"), 0/2 credits for professional elective courses/kloc-and 4 credits for public elective courses.

Sixth, the academic system

Four years.

Seven. Degree conferring and requirements

Bachelor degree in engineering.

Students must meet the relevant regulations of Ningbo University for awarding bachelor's degree.

Eight, all kinds of courses and credit allocation summary table

Total of required courses and elective courses of course classification: experiment, practice, training and computer.

Public * * * basic platform course discipline basic platform course professional basic platform course subtotal professional direction module course elective course subtotal public * * * basic platform course discipline basic platform course professional direction module course subtotal.

Academic performance 5215.5 34.5102 36 22 58160 25.5 5 28 40.5

Accounting for% 32.59.721.663.822.513.736.21001.33.43./kloc-0.

Nine, communication engineering professional course summary table

Course Category CourseNo. Course Name (in Chinese and English) Total class hours allocation of academic achievements Start semester suggested semester.

Lectures, autonomous learning, experiments, computer practice and training, short semesters in autumn and spring.

Public platform 020L 13A Moral and Legal Basis 3.0 5 1 5 1 √ 1

020L 12A Marxist philosophy 3.0 5 1 5 1 √ 2

020L 14A *** Introduction to Mao Zedong Thought and Deng Xiaoping Theory 4.0 68 68 √ 4

020L 10A "two courses" social practice 2.0 2 weeks summer vacation 2 weeks summer vacation 2

040T0 1A university physical education 1 physical education (1)1.03434 √1.

040T02A University Physical Education 2 (2) 1.03434 √ 2

040T03A University Physical Education 3 (III) 1.03434 √ 3

004C03A military theory and basic military knowledge 1.03 weeks and 3 weeks √ short 1

004C04A Military Skills Training Basic Military Training 1.0 √.

080J0 1F Advanced Mathematics A 1 Advanced Mathematics (A1) 6.0102102 √/

080J02G Advanced Mathematics A2 Advanced Mathematics (A2) 5.0 85 85 √ 2

080j 10b Linear Algebra (a) 3.0 5 1 5 1 √ 2

080J 15A probability statistics a probability statistics (a) 3.0 5 1 5 1 √ 3

080J24C Complex Variable Function and Complex Variable Integral Transform Function &; Integer transformation 3.0 5 1 5 1 √ 3

College English course: 15 credits. For specific courses, please refer to the Outline of College English Graded Teaching Courses.

Subtotal 52.0 credits

Subject Basic Platform 100J06A Introduction to Computer 3.0 68 34 34 √ 1

100J05A programming basics (c language) C3.0 programming 68 34 34 √ 1

10 1G0 1G circuit principle (I) circuit principle (1) 2.5 42 42 √ 2

10 1G03Y digital electronic technology 3.5 59 42 17 √ 3

10 1G23A digital electronic technology experiment 0.5 17 17 √ 3

10 1G 12G information technology practice application information technology 3.03 weeks 3 weeks √ short 2

Subtotal 15.5 254+3 weeks1521717 68 3 weeks 0

The professional basic platform 10 108y numerical calculation and MATLAB language are in matlab3.059251717 √ 3.

080J34A University Physics C2 University Physics (C2) 3 5 1 5 1 √ 3

080J44A University Physics Experiment C2 University Physics Experiment (C2) 0.5 17 17 √ 3

10 1G02A analog electronic technology 3.5 59 59 √ 4

Nine, communication engineering professional course summary table (continued 1)

Course Category CourseNo. Course Name (in Chinese and English) Total class hours allocation of academic achievements Start semester suggested semester.

Lectures, autonomous learning, experiments, computer practice and training, short semesters in autumn and spring.

Professional basic platform 10 1G22A analog electronic technology experiment 1.03434 √ 4

10 1G06Y ● Signal and system 4.0 68 5 1 17 √ 4

101g09a computer network bcomputer nerve () b3.0594217 √ 4

102G05Y single chip microcomputer principle and application 3.0 59 25 17 17 √ 4 single chip microcomputer principle and application.

103G04Y ◆ Digital signal processing 3.5 68 34 17 17 √ 5

102G0 1Y ● Communication principle 4.0 76 42 17 17 √ 5

102T0 1Y ● Communication electronic circuit 3.5 68 34 17 17 √ 5

102T 19A Exchange English 0.5 17 17 √ 5

103M02A ◆ Fundamentals of information theory 2.0 34 34 √ 6

Subtotal 34.5 669 39710219 34017

Wireless communication module 102D0 1Y electromagnetic field and electromagnetic wave * * * 3.0 5 1 34 17 √ 5.

103G0 1C ◆DSP chip technology and DSP application 3.0 59 42 17 √ 6

103T 14Y modern communication network EORKS 3.0 5 1 34 17 √ 6

103T 15A RF circuit design RF circuit technology 2.0 42 25 17 √ 6

103T 16Y microwave technology and antenna 2.5 42 25 17 √ 7

103T 17Y digital mobile communication 2.5511717 √ 7

Introduction to new communication technology 103T 18Y Introduction to modern communication technology 2.0 34 17 17 √ 7

103G05C network system integration in practice 1.0 1 week 1 week √ short 3

103G06C single chip microcomputer application design 2 choices 1 2.0 2 weeks 2 weeks √ short 3.

103G07C DSP chip application system design SCM application design 2.0 2 weeks 2 weeks √ short 3

108G01agration practice 4.0 4 weeks 4 weeks √ 8

109G03A graduation thesis (including literature reading) 18.0 12 weeks 12 weeks √ 8

Subtotal (required: 1 1+25=36 credits) 43.0 330+ 19 weeks 194 85 5 1 0 7 weeks 12 weeks.

Course Outline of Communication Engineering (Continued Table 2)

Course Category CourseNo. Course Name (in Chinese and English) Total class hours allocation of academic achievements Start semester suggested semester.

Lectures, autonomous learning, experiments, computer practice and training, short semesters in autumn and spring.

Optical communication module 103T02Y photoelectric technology 3.5 68 34 17 17 √ 5

103T2 1Y laser theory and technology laser 3.0 5 1 34 17 √ 5.

103G0 1C ◆DSP chip technology and DSP application 3.0 59 42 17 √ 6.

103t11bModern exchange principles 2.5 5 1 34 17 √ 6

103T25Y data compression binary data compression 2.5511717 √ 6

103T23Y optical fiber communication system 3.5 68 34 17 17 √ 7

103G05C network system integration in practice 1.0 1 week 1 week √ short 3

103G06C single chip microcomputer application design 2 choices 1 2.0 2 weeks 2 weeks √ short 3.

103G07C DSP chip application system design SCM application design 2.0 2 weeks 2 weeks √ short 3

108g 0 1A gration Exercise 4.0 4 weeks 4 weeks 8

109G03A graduation thesis (including literature reading) 18.0 12 weeks 12 weeks 8

Subtotal (required: 1 1+25=36 credits) 43.0 348+ 19 weeks 195 68 17 7 weeks 12 weeks.

Multimedia communication module 103M04Y multimedia technology and communication 3.5 68 34 17 17 √ 5

103t11bModern exchange principles 2.5 5 1 34 17 √ 6

103M05Y digital voice signal processing digital audio signal processing 3.0 59 25 17 17 √ 6

103G02Y ◆ Digital image signal processing 3.5 68 34 17 17 √ 6

103T25Y data compression data compression 2.5511717 √ 6

103M09Y streaming media technology 3.0 59 25 17 17 √ 7

103G05C network system integration in practice 1.0 1 week 1 week √ short 3

103G06C single chip microcomputer application design 2 choices 1 2.0 2 weeks 2 weeks √ short 3.

103G08A multimedia information processing system design multimedia processing system design 2.0 2 weeks 2 weeks √ short 3

108G01agration practice 4.0 4 weeks 4 weeks √ 8

109G03A graduation thesis (including literature reading) 18.0 12 weeks 12 weeks √ 8

Subtotal (required: 1 1+25=36 credits) 43.0 356+ 19 weeks 169 85 17 85 7 weeks 12 weeks.

IX. Summary Table of Communication Engineering Courses (Continued Table 3)

Course Category CourseNo. Course Name (in Chinese and English) Total class hours allocation of academic achievements Start semester suggested semester.

Lectures, autonomous learning, experiments, computer practice and training, short semesters in autumn and spring.

Specialized Elective Courses 107J0 1B Object-Oriented Programming 3.0 68 34 34 √ 2

107K0 1A telecom Expo and telecom anecdotes 2.0 34 34 √ 3

103M0 1Y software technology foundation 3.0 68 34 17 17 √ 5

103D2 1Y electronic measurement technology 3.0 59 25 17 17 √ 5

103d 4 1y VLSI design basis 3.0 5 1 34 17 √ 5

103D03Y online programming technology 3.0 59 25 17 17 √ 5

107K07Y embedded system embedded system programming 3.0 59 25 17 17 √ 5

107K02A communication EDA simulation 2.0 42 25 17 √ 6

107K05A WAP web page programming WAP programming 3.0 68 34 34 √ 6

103M03Y information security technology 3.0 59 25 17 17 √ 6

107K04A Internet technology Internet technology 3.0 68 34 34 √ 6

107D0 1B pattern recognition and application 3.0 59 42 17 √ 6

103D 12C sensor technology and application 3.0 59 42 17 √ 6

Engineering application of 107K 10A MATLAB 3.0 68 34 34 √ 6

103D22Y ◆ Virtual and Intelligent Instruments 3.5 68 34 17 17 √ 6

103D43Y digital system analysis and design 3.5 68 34 17 17 √ 7

107K 1 1A fundamentals of random signal analysis 3.0 5 1 5 1 √ 7

107K 12A video editing and application video production 3.0 68 34 34 √ 7

107K 13A COM COMponent programming com programming basics 3.0 68 34 34 √ 7

107K09A wavelet analysis and application wavelet 3.0 59 42 17 √ 7

107K06A Urban Geographic Information System Urban Geographic Information Basis 2.5 5 1 34 17 √ 7

107D03B intelligent signal processing 3.0 5 1 5 1 √ 7

Nine. Course Outline of Communication Engineering (Continued Table 4)

Course Category CourseNo. Course Name (in Chinese and English) Total class hours allocation of academic achievements Start semester suggested semester.

Lectures, autonomous learning, experiments, computer practice and training, short semesters in autumn and spring.

Specialized Elective Course 103D09Y Computer Aided Circuit Design 3.0 59 25 17 17 √ 7

103X0 1Y Introduction to Microelectronics 2.5 42 25 17 √ 7

107J03D ◆Java language and internal programming of Java language 3.0 68 34 34 √ 7

Each student must complete the following 22 elective credits: 1, 6 credits for the cultural quality course (including 2 credits for the "two courses" extension course); 2. Elect modular courses and elective courses of communication engineering 12 credits; 3. Elect 4 credits in public elective courses and courses offered by all majors in the school.

X. overview of concentrated practice teaching course

Course number, course name, academic performance, total class hours, and semester arrangement.

004C03A military theory 1 3 weeks short 1

004C04A Military Skills Training 1

020L 10A "Two Courses" Social Practice 2 The summer vacation of the second school year is 2 weeks.

10 1G 12G information technology practice 3 3 weeks shorter 2

103G05C network system integration practice 1 1 week short 3

103G06C single-chip microcomputer application system design 2 2 weeks shorter than 3, module 1, choose one from 2.

Design of 103G07C DSP chip application system

103G08A Multimedia Information Processing System Design Short 3, Module 3 Practice Course

108G0 1A graduation practice 4 4 weeks in the eighth semester

109G03A graduation project (including literature reading) 18 12 8th semester week

Total credits: 32