Training Program for Communication Engineering
Undergraduates Version 2015
TRAINING GOALS
Have a solid foundation of science and engineering, solid professional knowledge and skills, practical applications skills, systems analysis and design ability, capacity to become an innovator in the field of computer science; basic literacy in academic research sufficient to continue to postgraduate education; humanistic literacy, knowledge of professional ethics and social responsibility;
good communication and coordination skills, teamwork, interdisciplinary collaboration skill as well as the international skill, in order to cultivate the future success for industry or academic and even management.
REQUIREMENTS
Undergraduate graduates majoring in Communication Engineering must meet the following requirements:
1 Engineering Knowledge: master mathematics, natural science, engineering and computer science knowledge to solve complex engineering problems of computer system.
2 Problem Analysis: analysis based on the basic principles, using applied mathematics, natural sciences and engineering science to obtain valid conclusions for complex engineering problems in computer systems.
3 Design / Develop Solutions: able to design solutions for the engineering of complex computer systems, meeting the specific requirements of computer systems, components or processes; can embody a sense of innovation in design; consider the social, health, security, legal, cultural and environmental factors.
4 Research: Able to complex engineering problems using scientific methods, including experimental design, analysis and interpretation of data, and derive rational conclusions.
5 Using Modern Tools: be able to address complex computer systems engineering questions and development tasks by selecting and employing appropriate technologies, resources, and tools, including modeling and prediction techniques while also understanding of the limitations of such techniques.
6 Engineering and Society: be able to use engineering related background knowledge to do rational analysis, computer engineering and computer systems evaluation for engineering problems implementing social schemes, health, safety, legal and culturally oriented programs, with an understanding and perspective on related responsibilities.
7 Environment and Sustainable Development: to understand and evaluate engineering practices for complex computer systems engineering problems related to the environment, and understand sustainable development.
8 Occupation Specifications: have some humanistic and social science literacy, awareness of social responsibility, and abide by standards of professional ethics to carry out work responsibly.
9 Individuals and Team: can take responsibility as an individual in a multidisciplinary context, or as a team member taking the role of a responsible person.
10 Communication: have the ability to effectively communicate and exchange ideas about complex computer system engineering problems with industry peers and the public, including report writing and document design, statement making, clarity in expression and making authoritative responses. Also, have international sensitivity so as to be capable of communication in a cross-cultural context.
11 Project Management: understand and use decision making methods for project management; use economic principles in a multidisciplinary environment.
12 Independent Learning & Lifelong Learning: have the consciousness of lifelong learning and continuous learning and have the ability to adapt to technology and social development.
TRAINING CHARACTERISTICS
This major is categorized by the China Ministry of Education as an Electronic Information training program. The university’s implementation of this program emphasizes core theoretical foundations and specialties, covering stress wave transmission, integrated circuit design, signal processing, communication system and communication network and related trends.
LENGTH OF SCHOOLING, BASIC REQUIREMENTS FOR GRADUATION AND DEGREE GRANTING
1 Undergraduate basic educational system normally takes 4 years, with flexible learning time of 3-6 years, in accordance with the credit management system.
2 Students majoring in communication engineering graduate with at least 165 credits, including various types of courses and procedure requirements of credits. Credits required are listed in the following table:
Curriculum Category |
General Required |
Subject Core |
College Core |
Major Core |
Major Elective |
General Elective |
Focus Practice |
Total |
Credits |
24 |
24 |
23 |
28 |
27 |
8 |
31 |
165 |
3. The students who complete the training program consisting of required courses, elective courses and related courses, achieve the required minimum graduation marks, and complete the courses required with qualified ethics, intellectual and health. Meeting the degree granting requirements of the relevant standards will award the degree of Bachelor of Engineering.
THE CURRICULUM AND CREDIT DISTRIBUTION
(a) general education curriculum (compulsory 24 + (6) elective credits + 8 credits)
General education curriculum includes two parts: compulsory and electives. Electives are in accordance with the Hunan University general elective courses (Quality Education) program. The general compulsory courses are as follows:
Course Code |
Course Name |
Credit |
Remarks |
GE01101 |
AN INTRODUCTION TO MAO ZEDONG THOUGHT AND THEORETICAL SYSTEM OF CHINESE CHARACTERISTICS SOCIALISM |
3 (+3) |
|
GE01039 |
ETHICS EDUCATION AND LAW FUNDAMENTALS |
1.5+(1.5) |
|
GE01100 |
SITUATION AND POLICY |
0.5+(1.5) |
|
GE01102 |
OUTLINE OF MODERN CHINESE HISTORY |
2 |
|
GE01103 |
THE BASIC PRINCIPLE OF THE MARX DOCTRINE (ONE) |
2 |
|
GE01104 |
THE BASIC PRINCIPLE OF THE MARX DOCTRINE (TWO) |
2 |
|
GE01012(-15) |
COLLEGE ENGLISH |
8 |
|
GE01107(-13) |
PSYCHOLOGICAL QUALITY AND CAREER DEVELOPMENT |
1 |
|
GE01089 (-92) |
PHYSICAL EDUCATION |
4 |
|
(b) subject core courses (24 credits)
Course Code |
Course Name |
Credit |
Remarks |
|
|
GE03025 |
HIGHER MATHEMATICS A (1) |
5 |
|
|
GE03025 |
HIGHER MATHEMATICS A (2) |
5 |
|
|
GE03003 |
LINEAR ALGEBRA A |
3 |
|
|
GE03004 |
PROBABILITY THEORY AND MATHEMATICAL STATISTICS A |
3 |
|
|
GE03005 |
GENERAL PHYSICS A (1) |
3 |
|
|
GE03006 |
GENERAL PHYSICS A (2) |
3 |
|
|
GE03007 |
GENERAL PHYSICS EXPERIMENT A (1) |
1 |
|
|
GE03008 |
GENERAL PHYSICS EXPERIMENT A (2) |
1 |
|
|
(c) college core courses (23 credits)
Course Code |
Course Name |
Credit |
Remarks |
|
|
CS04022 |
ADVANCED PROGRAM DESIGN |
4 |
|
|
CS04027 |
THE APPLICATION OF STATISTICAL AND STOCHASTIC PROCESSES |
4 |
|
|
EI04017 |
DIGITAL LOGIC |
4 |
|
|
CS04002 |
DATA STRUCTURE |
4 |
|
|
CS04028 |
THE COMPOSITION AND DESIGN OF COMPUTER |
4 |
|
|
CS04021 |
PROGRAMMING STUDIO |
2 |
|
|
CS04024 |
DIGITAL EXPERIMENT SYSTEM |
1 |
|
|
(d) major core courses (28 credits)
Course Code |
Course Name |
Credit |
Remarks |
|
|
EI04022 |
SIGNALS AND SYSTEMS (INCLUDING SIGNAL PROCESSING EXPERIMENT) |
4 |
|
|
EI05025 |
CIRCUIT ANALYSIS |
4 |
|
|
EI05005 |
THE PRINCIPLE OF COMMUNICATION (INCLUDING COMMUNICATION PRINCIPLE EXPERIMENT) |
4 |
|
|
EI05026 |
COMPUTER COMMUNICATION AND NETWORKS |
4 |
|
|
EI05027 |
THE BASIC MATHEMATICS OF INFORMATION AND COMMUNICATION STUDY |
4 |
|
|
EI05028 |
ELECTROMAGNETIC FIELD AND ELECTROMAGNETIC WAVE (INCLUDING ELECTROMAGNETIC FIELD AND ELECTROMAGNETIC WAVE EXPERIMENT) |
4 |
|
|
EI05029 |
THE ELECTRONIC CIRCUIT (INCLUDING ELECTRONIC CIRCUIT EXPERIMENT) |
4 |
|
|
(e) major elective courses (27 credits)
(1) major limited elective courses (12 credits)
The students must take 4 courses from the following, in order to strengthen the major and professional foundation, a total of 12 credits.
Course Code |
Course Name |
Credit |
Remarks |
|
|
EI06100 |
DIGITAL SIGNAL PROCESSING (INCLUDING SIGNAL PROCESSING EXPERIMENT)) |
3 |
|
|
EI06101 |
INFORMATION THEORY AND CODING |
3 |
|
|
EI06102 |
NETWORK SWITCHING AND ROUTING |
3 |
|
|
EI05017 |
THE COMMUNICATION CIRCUIT (INCLUDING COMMUNICATION CIRCUIT EXPERIMENT) |
3 |
|
|
EI05016 |
THE PRINCIPLE OF THE WIRELESS COMMUNICATION (INCLUDING THE WIRELESS COMMUNICATION PRINCIPLE EXPERIMENT) |
3 |
|
|
EI06103 |
MOBILE COMMUNICATION (INCLUDING MOBILE COMMUNICATION EXPERIMENT) |
3 |
|
|
(2) major all-you-can-choose elective courses (15 credits)
Major elective courses choose five courses with a total of 15 credits. Courses offer are as follows:
Course Code |
Course Name |
Credit |
Remarks |
|
|
EI06104 |
OPTICAL ELECTRONICS IN MODERN COMMUNICATIONS |
3 |
Radio Communication Concentration |
|
EI06105 |
THE PRINCIPLE AND APPLICATION OF ELECTROMAGNETIC COMPATIBILITY |
3 |
|
EI06106 |
THE PRINCIPLE OF MICROWAVE AND ANTENNA |
3 |
|
EI06107 |
MICROWAVE COMMUNICATION TECHNOLOGY |
3 |
|
EI06108 |
INTEGRATED CIRCUIT DESIGN |
3 |
Communication Circuit And Electronic Concentration |
|
EI06109 |
ANALOG INTEGRATED CIRCUIT ANALYSIS AND DESIGN |
3 |
|
EI06110 |
RF INTEGRATED CIRCUIT DESIGN |
3 |
|
EI06111 |
TIME-FREQUENCY SIGNAL ANALYSIS |
3 |
Signal Process Concentration |
|
EI06112 |
REAL TIME SIGNAL PROCESSING BASED ON DSP |
3 |
|
EI06113 |
DETECTION AND ESTIMATION OF SYSTEM SIMULATION |
3 |
|
EI06114 |
RANDOM PROCESS AND QUEUING THEORY |
3 |
|
EI06045 |
DIGITAL IMAGE PROCESSING |
3 |
Group Communication System Concentration |
|
EI06115 |
THE NEW TECHNOLOGY OF MODERN COMMUNICATION |
3 |
|
EI06037 |
THE PRINCIPLE OF OPTICAL FIBER COMMUNICATION |
3 |
|
CS06027 |
MULTIMEDIA COMMUNICATION |
3 |
|
EI06116 |
COMPUTER COMMUNICATION NETWORK |
3 |
Communication Network Group Concentration |
|
EI06117 |
THE MODERN DIGITAL COMMUNICATION SYSTEM |
3 |
|
EI06118 |
COMPUTER COMMUNICATION NETWORK |
3 |
|
EI06119 |
OPTICAL NETWORK AND OPTICAL SWITCHING TECHNOLOGY |
3 |
|
Note:
1) We encourage students take major or cross-major elective courses; credits should be not less than 50% of total 165 credits.
2) During the period of study, if the student participated in academic competitions or published academic papers and the college recognized these (see < College of Computer Science and Electrical Engineering, Hunan University Academic Research Classification Guidance and Technology Innovation Achievements Guidance >), you can apply to substitute two elective credits.
(f) centralized practice (31 credits)
Course Code |
Course Name |
Credit |
Remarks |
GE01040 |
MILITARY TRAINING, MILITARY AND DEFENSE (INCLUDING MILITARY THEORY) |
0 |
|
CS10018 |
ENTRANCE EDUCATION AND MAJOR INTRODUCTION |
0 |
|
GE09030 |
CHINESE WRITING TRAINING |
1 |
Year One Summer Semester |
GE09028 |
PROGRAMMING DESIGN TRAINING |
2 |
CS10019 |
THE ELECTRONIC SYSTEM DESIGN (INCLUDING THE DIGITAL SYSTEM DESIGN) |
2 |
Year Two Summer Semester |
CS10020 |
SOFTWARE DESIGN |
2 |
CS10021(22) |
SPECIALTY SYNTHETIC DESIGN |
4 |
Year Three Summer Semester |
CS10023 |
GRADUATION CO-OP |
2 |
The Eighth Semester |
CS10024 |
SWITCH AND ROUTER EXPERIMENT |
2 |
|
CS10025 |
CIRCUIT EXPERIMENT |
2 |
The specialized practical course |
CS10026 |
THE GRADUATION DESIGN (INCLUDING SUPERVISOR TRAINING COURSE) |
14 |
Include 2 credits of supervisor training course. the supervisor training course is an "tutorial system" for a specific task, this course must be to project-oriented with the CDIO mode (Conceive, Design, Implement, Operate), at the same time teaching with discussion mode. each semester guide 3-6 students per session. the content of this course includes: undergraduate academic guidance, the first grade and second grade summer semester curriculum design supervision, the third grade summer semester curriculum design guidance, the fourth year undergraduate students graduation co-op practice and graduation design guidance. |
THE CURRICULUM SCHEDULE OF RESPONSIBLE TEACHERS
Serial Number |
Name |
Title |
Education |
Specialty |
Major courses (major core, major elective, general elective) |
1 |
WANG Chunhua |
PROFESSOR |
PhD |
Integrated circuit design; |
Electronic circuit |
2 |
KANG Zhiwei |
PROFESSOR |
PhD |
signal processing |
Signal and system, time-frequency analysis |
3 |
HE Songhua |
PROFESSOR |
PhD |
Signal and Information Processing |
The application of statistical and stochastic processes |
4 |
CHEN Lin |
PROFESSOR |
PhD |
Optical fiber communication and wireless communication |
Communication principle |
5 |
FU Xiquan |
PROFESSOR |
PhD |
Optical communication technology |
The basic mathematics in communication engineering |
6 |
YANGGaobo |
PROFESSOR |
PhD |
Video signal processing, multimedia communication |
Information theory and encoding, digital image processing |
7 |
HE Haizhen |
ASSOCIATE PROFESSOR |
Master |
Communication circuits and systems |
Digital circuit and logic design, digital system design |
8 |
HE Xuansen |
ASSOCIATE PROFESSOR |
Master |
Signal and Information Processing |
Application statistics and stochastic processes |
9 |
YU Xiaoyou |
ASSOCIATE PROFESSOR |
PhD |
Deep space communication network |
Communication principle |
10 |
DU Sichun |
ASSOCIATE PROFESSOR |
PhD |
Electronic communication |
Electronic circuit, analysis and design of analog integrated circuit |
11 |
ZHANG Hanling |
ASSOCIATE PROFESSOR |
PhD |
Image processing |
Digital signal processing |
12 |
LI Tao |
ASSOCIATE PROFESSOR |
PhD |
Electronic communication |
Digital circuit and logic design, digital system design |
13 |
ZENG Fanzai |
ASSOCIATE PROFESSOR |
PhD |
Cognitive wireless network |
Digital signal processing, DSP application programming |
14 |
WU Renyong |
ASSOCIATE PROFESSOR |
PhD |
Sensor networks, vehicular networks |
Computer network |
15 |
YANG Hua |
ASSOCIATE PROFESSOR |
PhD |
Mid-infrared laser technology |
Circuit analysis |
16 |
SHU Weixing |
ASSOCIATE PROFESSOR |
PhD |
Optical device |
The basic mathematics in communication engineering, electromagnetic calculation software application |
17 |
TANG Zhixiang |
ASSOCIATE PROFESSOR |
PhD |
Optical device |
Electromagnetic field and electromagnetic wave, antenna theory and design |
18 |
LUO Zhinian |
ASSOCIATE PROFESSOR |
PhD |
The key technology of mobile communication |
Mobile communication, modern digital communication |
19 |
BAI Yanfeng |
ASSOCIATE PROFESSOR |
PhD |
Optical communication |
Electromagnetic field and electromagnetic wave |
20 |
HE Jing |
ASSOCIATE PROFESSOR |
PhD |
Optical communication, computer network |
Wireless communication principle, optical fiber communication principle |
21 |
WU Jianhui |
LECTURER |
PhD |
Electronic communication |
Circuit analysis |
22 |
CHEN Hua |
LECTURER |
PhD |
multimedia communication |
Digital circuits and logic design |
23 |
SUN Jingru |
LECTURER |
PhD |
Communication Electronics |
Communication circuit |
24 |
HU Hongping |
LECTURER |
PhD |
Multimedia communication |
Signal and system, real-time signal processing based on DSP |
25 |
XIAO Zhu |
LECTURER |
PhD |
Communication networks |
Information theory and encoding, modern communication technology |
26 |
DU Qingsong |
LECTURER |
PhD |
Communication networks |
Wireless communication principle, wireless communication system design |
27 |
CHEN Weiwei |
LECTURER |
PhD |
Computer networks |
Computer network and wireless communication network |
28 |
LI Xiehua |
LECTURER |
PhD |
Wireless communication, network security |
Network switching and routing, computer communication network |
29 |
CAO Zizheng |
LECTURER |
PhD |
Optical communication |
Network switching and routing, optical network and optical switching technology |
MAJOR RESPONSIBLE PROFESSOR
Serial Number |
Name |
Title |
Education |
Specialty |
Major courses (major core, major elective, general elective) |
1 |
WANG Chunhua |
PROFESSOR |
PhD |
Integrated circuit design |
Design of integrated circuit, electronic circuit |
