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全英文授课专业培养计划1

Contents目录



Electronic Engineering

Degree

Bachelor of Engineering (B.Eng.)

Normal Period of Study

4 years

Objectives

This Discipline is intended to equip the graduates with good qualities of modern sciences, humanities, sense of social responsibility and professional ethics, a solid grasp of basic theories and professional skills of the discipline, a strong sense of innovation and engineering practice ability, to enable the graduates to practice at  enterprises, research institutes, and high education institutions in the field of electronic engineering, computer and other related fields, to specialize in telecommunication, electronic information, electronic devices and systems, optoelectronics, microelectronics in areas such as product design and manufacturing, technology development and engineering design, science research, education and teaching, operation management, and etc.,  to meet the requirements of the rapid high-tech development of the information society, and to further grow into high-level multi-skill talents sophisticated in both research and application.

Requirements

Students majoring this discipline are required to focus on the basic theory and basic knowledge of Electronic Engineering, to go through basic training in connection with the analysis and design of electronic information systems, and to master basic skills to design, develop, integrate and apply the electronic information systems.

Graduates are expected to acquire the following knowledge and abilities:

1.To have good qualities in humanities and social sciences, good sense of social responsibility and engineering professional ethics;

2.To be equipped with knowledge of mathematics and natural sciences, and ideas of economic and management sufficient for engineering work;

3.To grasp the basic theoretical knowledge of foundation courses such as electronic circuit, electromagnetic field and wave,signal and system, digital signal processing, telecommunication, wireless communication systems, image processing,software design, optical information processing, optical fiber communications, computer technology,and to understand the leading edge and development trend of electronic engineering.

4.To have complete and all round study experience in engineering, and ability to design and analyze engineering experiments, to master basic knowledge of electronic and optical information collection, sending, transmission, processing, storage and display, and to have skills in the analysis, research, development, design, manufacturing and other engineering application skills in connection with relevant systems and devices;   

5.To master the basic innovative approach with the pursuit of innovation and awareness of sustainable development; to be equipped with basic skills in application of scientific theories and techniques along with comprehensive consideration and analysis of economic, environmental, legal, safety, health, ethics and other factors in the solving of engineering problems;

6. To grasp basic method in documentation study, data research, and the use of modern information technology to obtain relevant information;

7.To understand the laws and regulations in connection with the production, design, research and development in the profession and industry of electronic engineering, and principles, policies, laws and regulations in terms of environmental protection, and to have a positive attitude to and correct understanding of the impact of the current status and development of engineering on the objective world and human society.

8.To have certain organization and management skills, presentation skills and social skills, as well as the ability of cooperation and team working;

9.To have the ability to adapt to development, and to recognize the necessity of lifelong learning and to maintain the ability to study.

10.To have international vision, and ability of cross-cultural communication, competition and cooperation.

Core courses

Circuit, analog electronic circuit, digital logic circuit, signal and systems, the principle and application of microcomputer, electromagnetic fields and waves, principles of communications, wireless and mobile communication technology , digital signal processing, VLSI design, principles of optoelectronic imaging and  display Technology, physical optics, applied optics.

Components of the 4-year Curriculum


Category

Credits

1.Specialized Courses

91.5 credits

2.Discipline Education Courses

40 credits

3.Gerneral Education Courses

10 credits

电子工程【英】专业教学计划进程表

Teaching Planfor Program of Electronic Engineering

课程编号

Course No

课程名称

Course Name

学分

Credit

课内学时

Credit Hours

学期Semester

开课学
院代码

School
Code

讲课Lecture

实践Practice

General Education Courses

581113E1

汉语入门(Ⅰ)‖Access to Chinese LanguageI)

2

32


2








058

582113E1

汉语入门(Ⅱ)‖Access to Chinese LanguageII)

2

32



2







058

210206E1

太极拳‖Chinese Kungfu

2

32


2








021

140228E1

中国概况‖China Panorama

2

32


2








014

580116E1

中国历史与文化‖History and Culture of China

2

32



2







058

Discipline Education Courses

060007E2

Visual C++程序设计‖C++  Programming Design

4

48

16

4








006

060009E1

Visual C++课程设计‖Course Design in C++

1


40

1








006

111208E4

大学物理(Ⅰ)‖College Physics ()

4

56



4







013

112208E4

大学物理(Ⅱ)‖College Physics ()

4

56




4






013

111209E4

大学物理实验(Ⅰ)‖Experiments in College Physics ()

2


24


2







013

112209E4

大学物理实验(Ⅱ)‖Experiments in College Physics()

2


24



2






013

110226E1

概率与统计‖Probability and Statistics

3

48





3





013

111233E1

高等数学(Ⅰ)‖Calculus()

5

80


5








013

112233E1

高等数学(Ⅱ)‖Calculus()

6

96



6







013

110240E1

工程数学‖Engineering Mathematics

4

64




4






013

050217E1

工程制图‖Engineering Drawing

3

48


3








001

110312E2

线性代数‖Linear Algebra

2

32




2






013

Specialized Courses

040213E1

电磁场与电磁波‖Electromagnetic Fields and Waves

3

48






3




004

041370E1

电工电子综合实验(Ⅰ)‖Electrical and Electronic Comprehensive Experiment (Ⅰ)

1


20




1





004

042370E1

电工电子综合实验(Ⅱ)‖Electrical and Electronic Comprehensive Experiment (Ⅱ)

1.5


60





1.5




004

100221E4

电路‖Circuits

4.5

64

8



4.5






004

040339E2

电子工艺实习‖Electronics Training

2


80




2





022

041409E4

光学综合实验(Ⅰ)‖Optical Comprehensive Experiment()

1


20




1





004

042409E4

光学综合实验(Ⅱ)‖Optical Comprehensive Experiment()

1


40





1




004

230201E4

金属工艺实习‖Metalworking Training

2


80


2







022

040268E1

模拟电子线路‖Analog Circuits

4

56

8




4





004

040263E2

数字逻辑电路‖Digital Logic Circuits

4

56

8




4





004

040277E5

数字信号处理‖Digital Signal Processing

3.5

48

8





3.5




004

040300E1

微机原理与应用‖Principle and Application of Microcomputer

4

56

8



4






004

040397E2

微机原理与应用综合实验‖Comprehensive Experiment in Principle and Application of Microcomputer

1


40



1






004

040226E1

物理光学‖Physical Optics

4

64






4




004

040308E3

信号与系统‖Signals and Systems

4.5

72






4.5




004

040349E1

应用光学‖Applied Optics

4

64





4





004

040213E1

电磁场与电磁波‖Electromagnetic Fields and Waves

3

48






3




004

041370E1

电工电子综合实验(Ⅰ)‖Electrical and Electronic Comprehensive Experiment ()

1


20




1





004

042370E1

电工电子综合实验(Ⅱ)‖Electrical and Electronic Comprehensive Experiment ()

1.5


60





1.5




004

100221E4

电路‖Circuits

4.5

64

8



4.5






004

040339E2

电子工艺实习‖Electronics Training

2


80




2





022

041409E4

光学综合实验(Ⅰ)‖Optical Comprehensive Experiment()

1


20




1





004

042409E4

光学综合实验(Ⅱ)‖Optical Comprehensive Experiment()

1


40





1




004

230201E4

金属工艺实习‖Metalworking Training

2


80


2







022

040268E1

模拟电子线路‖Analog Circuits

4

56

8




4





004

040263E2

数字逻辑电路‖Digital Logic Circuits

4

56

8




4





004

040277E5

数字信号处理‖Digital Signal Processing

3.5

48

8





3.5




004

040300E1

微机原理与应用‖Principle and Application of Microcomputer

4

56

8



4






004

040397E2

微机原理与应用综合实验‖Comprehensive Experiment in Principle and Application of Microcomputer

1


40



1






004

040226E1

物理光学‖Physical Optics

4

64






4




004

040308E3

信号与系统‖Signals and Systems

4.5

72






4.5




004

040349E1

应用光学‖Applied Optics

4

64





4





004

040601E1

半导体器件基础‖Semiconductor Device Fundamental

2

32








2


004

040324E4

毕业设计‖Graduation Project

14


560








14

004

040434E1

超大规模集成电路设计‖VLSI Design

2

24

8







2


004

040211E1

传感器原理‖Sensor Fundamental

3

48







3



004

040232E5

光电成像原理与显示技术‖Principles of Optoelectronic Imaging    and  Display Technology

4

64








4


004

040431E1

光电信号处理‖Optoelectronic Signal Processing

3

48







3



004

040244E1

光纤通信理论基础‖Fiber Optical Communication Basis

3

48








3


004

040371E3

射频/微波系统综合实验‖Comprehensive Experiments of RF/Microwave Systems

0.5


20







0.5


004

040275E3

数字图像处理‖Digital Image Processing

2

32







2



004

040283E2

通信原理‖Principles of Communications

3

48







3



004

040375E2

通信原理综合实验‖Comprehensive Experiments of Communication Principles

1


40






1



004

040515E1

微波、毫米波系统‖Microwave and Millimeter-Wave Systems

2

32








2


004

040528E1

无线电射频电路理论‖RF/Microwave Circuit Theory

2

32







2



004

040257E1

无线网络技术‖Wireless Network Technology

3

48








3


004

040561E1

无线与移动通信技术‖Wireless and Mobile Communication Technology

2

32







2



004


必修课程汇总‖Total

141.5

1704

1112

19

18

21.5

19

17.5

16

16.5

14


Software Engineering

Degree

Bachelor of Engineering (B.Eng.)

Normal Period of Study

4 years

Objectives

The overall goals of the Bachelor of Engineering in Software Engineering Program are: 1) to prepare students for software engineer positions in industry or government; 2) to prepare students for graduate study in Software Engineering; and 3) to provide students a solid foundation in Computer Science and Software Engineering principles that will allow graduates to adapt effectively in a quickly changing field.

The current objectives for graduates of the Bachelor of Engineering in Software Engineering Program are to:

1. effectively apply knowledge of programming, algorithms, data structures, and software engineering to the development of complex software systems;

2. communicate technical concepts effectively in both written documents and oral presentations;

3. design and analyze software at the component, subsystem, and software architecture levels and make informed, sound software design tradeoffs;

4. understand the social and ethical issues that arise in their work and deal with them professionally;

5. understand the importance of all phases of the software lifecycle, with emphasis on the need to plan for change and continuously vie to improve the software process;

6. work effectively in a software development team and with other engineering professionals;

7. appreciate the need for lifelong learning and adapt to rapid technological changes.

Requirements

This major combines computer software, hardware and network. It focuses on learning software engineering theories and technologies for software requirement analysis, modeling, design, development, testing and maintenance. Graduates of this major should acquire knowledge and skills in the following aspects:

1. Basic theory and knowledge of computer science and technology;

2. Software system required methods of designing andanalyzing;

3. Abilities of designing, developing, testing and maintaining software;

4. Good communication skills and teamwork spirit;

5. Following the updates of international development in software areas and quickly adapting to the latest software developing model.

Core Courses

Students are offered main courses of Fundamentals of J2EE Applications, C++ Programming Language, Java Programming Language, Operating System, Introduction to Computer, Computer Networks, Discrete Mathematics, Object-oriented Modeling, Software Design Patterns, Software Project Management, Data Structure, Database System, Algorithm Design and Analysis, Distributed System, Software Testing Techniques, Software Architecture, and Human-computer Interaction Techniques.

Components of the 4-year Curriculum


Category

Credits

1.Specialized Courses

95.5credits

2.Discipline Education Courses

26 credits

3.Gerneral Education Courses

10 credits

软件工程【英】专业教学计划进程表

Teaching Plan for Program of Software Engineering

课程编号

Course No

课程名称

Course Name

学分

Credit

课内学时

Credit Hours

学期Semester

开课学
院代码

School
Code

讲课Lecture

实践Practice

General Education Courses

580116E1

中国历史与文化‖History and Culture of China

2

32



2







058

140228E1

中国概况‖China Panorama

2

32


2








014

210206E1

太极拳‖Chinese Kungfu

2

32


2








021

581113E1

汉语入门(Ⅰ)‖Access to Chinese LanguageI)

2

32


2








058

582113E1

汉语入门(Ⅱ)‖Access to Chinese LanguageII)

2

32



2







058

Discipline Education Courses

111208E4

大学物理(Ⅰ)‖College Physics ()

3.5

56



3.5







013

112208E4

大学物理(Ⅱ)‖College Physics ()

3.5

56




3.5






013

111209E4

大学物理实验(Ⅰ)‖Experiments in College Physics ()

1.5


24


1.5







013

112209E4

大学物理实验(Ⅱ)‖Experiments in College Physics()

1.5


24



1.5






013

110226E1

概率与统计‖Probability and Statistics

3

48





3





013

111233E1

高等数学(Ⅰ)‖Calculus()

5

80


5








013

112233E1

高等数学(Ⅱ)‖Calculus()

6

96



6







013

110312E2

线性代数‖Linear Algebra

2

32




2






013

Specialized Courses

060307E1

计算机逻辑基础‖Fundamentals of Computer Logic

4

56

8


4







006

060219E1

编译方法‖Compiler Principle

4

48

16






4



006

060224E1

数据结构‖Data Structures

4

48

16



4






006

060217E1

C++程序设计‖C++

5

48

32

5








006

060220E1

操作系统‖Operating Systems

4

48

16





4




006

060001E7

计算机导论‖Introduction to Computer

3

48


3








006

060316E1

C++课程设计‖C++ Course Design

2


80


2







006

060201E2

计算机网络‖Computer Networks

3

40

8





3




006

060208E2

计算机组成原理‖Principles of Computer Organization

4.5

64

8




4.5





006

060221E5

离散数学‖Discrete Mathematics

4.5

72




4.5






006

060266E2

面向对象建模技术‖Object-oriented Modeling

3

40

8





3




006

060267E2

软件体系结构‖Software Architecture

3

32

16








3

006

060292E1

人机交互技术‖Human Computer Interaction

2

32








2


006

060231E4

算法设计与分析‖Design and Analysis of Algorithms

3

32

16






3



006

062254E2

软件课程设计(Ⅱ)‖Software Course Design()

1


40






1



006

060273E3

软件测试技术‖Software Testing Techniques

3

32

16






3



006

060274E5

软件项目管理‖Software Project Management

3

32

16





3




006

060225E1

数据库系统‖Database System

4

48

16




4





006

063254E2

软件课程设计(Ⅲ)‖Software Course Design()

2


80







2


006

060302E1

JAVA课程设计‖Java Course Design

2


80




2





006

060303E2

软件设计模式‖Software Design Patterns

3

32

16






3



006

060205E4

分布式系统‖Distributed Systems

3

48







3



006

061254E2

软件课程设计(Ⅰ)‖Software Course Design()

2


80





2




006

060278E1

J2EE实用基础‖Fundamentals of J2EE Applications

2

24

8




2





006

060202E4

毕业设计‖Graduation Project

14


560








14

006

060301E3

信息安全基础及应用‖Fundamentals and Applications in Information Security

3.5

48

8






3.5



006

060218E6

JAVA程序设计‖JAVA Programming Design

4

48

16





4




006


必修课程汇总‖Total

131.5

1448

1208

19

21

15.5

15.5

19

20.5

4

17


International Economics and Trade

Degree

Bachelor of Economics (B.Ec.)

Normal Period of Study

4 years

Objectives

For four-academic-year (Fall and Spring Semesters) study, students can learn theories on international economics and international commercial practices. Students can be familiar with current international trade practices and rules and learn about the development of world economy and trade policy of major countries. Besides, students are versatile in foreign trade, management, market research and promotion planning. In other words, students are apt to work in foreign trade units, foreign firms and government departments. Generally speaking, students will excel in the aspects of innovation and application.

Requirements

Participants mainly learn basic theories and knowledge on international economics. They will receive some trainings on international trade, international investment and economic cooperation. They will improve the abilities in working at international business.

Graduates are required to acquire:

1. theories on international economics and trade;

2. skills to operate in the field of international trade;

3. policy and laws on foreign trade of some major countries;

4. academic frontier knowledge on international economics and trade;

5. skills of high English proficiency and computer operation.

Core Courses

Microeconomics,Macroeconomics, Management Statistics, International Economics, International Trade, International Finance, International Trade Practices, Money and Banking, Accounting, World Economy and International Business Law

Components of the 4-year Curriculum

Category

Credits

1.Specialized Courses

108 credits

2.Discipline Education Courses

14 credits

3.Gerneral Education Courses

10 credits

国际经济与贸易【英】专业教学计划进程表

Teaching Plan for Program of International Economics and Trade

课程编号

Course No

课程名称

Course Name

学分

Credit

课内学时

Credit Hours

学期Semester

开课学
院代码

School
Code

讲课Lecture

实践Practice

General Education Courses

581113E1

汉语入门(Ⅰ)‖Access to Chinese LanguageI)

2

32


2








058

582113E1

汉语入门(Ⅱ)‖Access to Chinese LanguageII)

2

32



2







058

580116E1

中国历史与文化‖History and Culture of China

2

32



2







058

210206E1

太极拳‖Chinese Kungfu

2

32


2








021

140228E1

中国概况‖China Panorama

2

32


2








014

Discipline Education Courses

060005E2

Visual FoxPro 程序设计‖Course Design of Visual Foxpro

3

32

16

3








007

111233E1

高等数学(Ⅰ)‖Calculus()

5

80


5








013

112233E1

高等数学(Ⅱ)‖Calculus()

6

96



6







013

Specialized Courses

070708E1

商情数据挖掘‖Data Mining for Business Intelligence

2

32




2






007

070707E1

跨文化交流‖Intercultural Communication

2

32







2



007

070709E1

商务写作‖Business Writing

3

48








3


007

070710E1

学术论文写作‖Academic Paper Writing

2

32






2




007

070701E1

国际经济关系‖International Economic Relations

2

32






2




007

070705E1

国际商务热点问题‖Hot Issues on International Business

2

32







2



007

070711E1

中级国际经贸:理论与实证‖Intermediate International Economics and Trade: Theory and Evidence

2

32








2


007

070800E1

毕业论文‖Graduation Thesis

14


560








14

007

070704E1

国际商务环境‖International Business Environment

2

32






2




007

070703E1

国际商务惯例‖International Business Customs & Practices

2

32








2


007

070702E1

国际经济合作‖International Economic Cooperation

2

32






2




007

070700E1

发展经济学‖Development Economics

2

32





2





007

070230E1

国际技术贸易‖International Technology Trade

2

32






2




007

070292E3

投资经济学‖Investment Economics

2

32






2




007

070284E1

世界经济‖World Economy

2

32






2




007

070246E1

货币银行学‖Economics of Money and Banking

2

32





2





007

070385E6

毕业实习‖Graduation Practice

5


200








5

007

070394E3

博弈论‖Game Theory

2

32




2






007

070207E1

财政学‖Public Finance

2

32





2





007

070223E1

管理统计‖Management Statistics

3

48




3






007

070226E3

管理学原理‖Principles of Management

3

48


3








007

070427E1

国际服务贸易‖International Trade in Services

2

32






2




007

070231E1

国际结算‖International Settlements

2

24

8







2


007

070232E2

国际金融‖International Finance

2

32







2



007

070553E2

国际金融市场‖International Financial Market

2

32








2


007

070340E1

国际经济学‖International Economics

2

32






2




007

070234E2

国际贸易‖International Trade

2

32




2






007

070236E1

国际贸易实务‖International Trade Practices

3

48







3



007

150271E2

国际商法‖International Business Law

2

32








2


015

070429E1

国际商务模拟实习‖International Business Simulation Practice

2


80







2


007

070483E1

国际商务谈判‖International Business Negotiation

2

24

8






2



007

070521E2

国际审计与鉴证‖International Auditing and Verification

2

32







2



007

070482E1

国际投资与跨国公司‖International Investment and Multinational Corporation

2

32





2





007

070555E1

国际物流‖International Logistics

2

32







2



007

070706E1

国际银行管理‖International Bank Management

2

32








2


007

070414E1

国际营销学‖International Marketing

2

32







2



007

070242E2

宏观经济学‖Macroeconomics

3

48




3






007

070245E1

会计学‖Accounting

3

40

8


3







007

070248E1

计量经济学‖Econometrics

3

44

4





3




007

070298E1

微观经济学‖Microeconomics

3

48



3







007

070322E1

运筹学‖Operational Research

3

44

4




3





007

070329E1

中国对外贸易概论‖Introduction to Chinas Foreign Trade

2

32





2





007


必修课程汇总‖Total

132

1728

888

17

16

12

13

21

17

17

19


Automation

Degree

Bachelor of Engineering (B.Eng.)

Normal Period of Study

4 years

Objectives

The objective is to cultivate high quality multi-skilled professionals who possess comprehensive knowledge of automatic control theory, computer science, electronic and electrical components, computer networks, information processing technology. After completing four years study, the students can undertake comprehensive automation and control systems research, design, development, operational management and decision-making in the electrical information field of related instrumentations and equipments, embedded computer control systems, application software of testing and control, motion control systems, process control systems, traffic control and intelligent building, etc.

Requirements

The students of this specialty study mainly the elementary theories of electrical technology, electronic technology, control theory, information processing, automatic detection, computer technology and application, as well as network technology, etc. They also receive good engineering practice training and are expected to possess fundamental capacities of system analysis, design, development and research.

The graduates should obtain the knowledge and abilities in the following aspects:
   1.
 To have solid natural science, good humanities social science foundation and comprehensive capabilities of using foreign languages;

2. To master broad technological and theoretical knowledge in this field, including circuit theory, electronic technology, control theory, information processing, fundamental and applications of computer software and hardware, etc;
   3.
 To grasp the knowledge of motion control, process control and automation Instrumentations, electric power and electronic technology, computer application and information processing, have specialized knowledge and skills in automation specialty, and understand the frontier and development trends of this specialty;

4. To obtain good practical engineering training in system analysis, systems design and systems development;
   5.
 To have certain expertise capacities in scientific research, technological development and organizational management, and have a strong ability to adapt to work requirements.

Core Courses

Electric Circuits, Analogical Electronic Circuit, Digital Logic Circuit, Microcomputer Principles and Interfaces, Automatic Control Theory, Data Communication and Networking, Real-Time Database System, Sensors and Testing Technology, Signals and Systems, PLC Principles and Applications, Process Computer Control Systems, Motion Control Systems, Embedded Control Systems and Applications, Modeling and Identification Fundamentals, Introduction to Robot Control

Components of the 4-year Curriculum


Category

Credits

1.Specialized Courses

92.5 credits

2.Discipline Education Courses

34credits

3.Gerneral Education Courses

10 credits

自动化专业【英】教学计划进程表

Teaching Plan for Program of Automation

课程编号

Course No

课程名称

Course Name

学分

Credit

课内学时

Credit Hours

学期Semester

开课学
院代码

School
Code

讲课Lecture

实践Practice

General Education Courses

580116E1

中国历史与文化‖History and Culture of China

2

32



2







058

140228E1

中国概况‖China Panorama

2

32


2








014

581113E1

汉语入门(Ⅰ)‖Access to Chinese LanguageI)

2

32


2








058

582113E1

汉语入门(Ⅱ)‖Access to Chinese LanguageII)

2

32



2







058

210206E1

太极拳‖Chinese Kungfu

2

32


2








021

Discipline Education Courses

060007E2

Visual C++程序设计‖C++  Programming Design

4

48

16

4








006

111208E4

大学物理(Ⅰ)‖College Physics ()

3.5

56



3.5







013

112208E4

大学物理(Ⅱ)‖College Physics ()

3.5

56




3.5






013

111209E4

大学物理实验(Ⅰ)‖Experiments in College Physics ()

1.5


24


1.5







013

112209E4

大学物理实验(Ⅱ)‖Experiments in College Physics()

1.5


24



1.5






013

111233E1

高等数学(Ⅰ)‖Calculus()

5

80


5








013

112233E1

高等数学(Ⅱ)‖Calculus()

6

96



6







013

110240E1

工程数学‖Engineering Mathematics

4

64




4






013

050217E1

工程制图‖Engineering Drawing

3

48


3








001

110312E2

线性代数‖Linear Algebra

2

32




2






013

Specialized Courses

100441E2

实时数据库系统‖Real-Time Database System

2.5

40






2.5




006

041400E2

EDA设计(Ⅰ)‖Electronic Design Automation ()

1


40





1




004

042400E2

EDA设计(Ⅱ)‖Electronic Design Automation ()

1


40






1



004

041370E1

电工电子综合实验(Ⅰ)‖Electrical and Electronic Comprehensive Experiment ()

0.5


20




0.5





004

042370E1

电工电子综合实验(Ⅱ)‖Electrical and Electronic Comprehensive Experiment ()

1.5


60





1.5




004

100217E3

电力电子技术‖Power Electronics Technology

2.5

36

4





2.5




010

100221E4

电路‖Circuits

4.5

64

8



4.5






004

040339E2

电子工艺实习‖Electronics Training

2


80



2






022

110226E1

概率与统计‖Probability and Statistics

3

48





3





013

230201E4

金属工艺实习‖Metalworking Training

2


80


2







022

100254E6

控制工程基础‖Control Engineering Fundamentals

3.5

48

8





3.5




010

040268E1

模拟电子线路‖Analog Circuits

4

56

8




4





004

100317E1

数据通信与网络‖Data Communications and Networks

2.5

34

6




2.5





010

040263E2

数字逻辑电路‖Digital Logic Circuits

4

56

8




4





004

100270E3

微机原理与接口技术‖Microcomputer Principle and Interface Technology

4

56

8





4




010

100282E2

现代控制理论基础‖Modern Control Theory Fundamentals

3.5

48

8






3.5



010

100201E3

PLC原理及应用‖PLC Principles and Applications

3

32

16







3


010

100208E1

传感器与检测技术‖Sensors and Testing Technology

3

40

8




3





010

100280E1

自动控制元件‖Automatic Control Components

3

36

12





3




010

100303E4

EDA综合实验‖EDA Synthetic Experiments

1


40







1


010

00203E6

毕业设计‖Graduation Project

14


560








14

010

100312E1

导航技术基础‖Basic Principles of Navigation Technology

2

24

8






2



010

100246E1

过程计算机控制系统‖Process Computer-Aided Control Systems

3

32

16






3



010

100371E1

航天控制概论‖Introduction to Aerospace Control System

2

32








2


010

100239E1

机器人控制导论‖Introduction to Robot Control

2

24

8







2


010

100255E2

控制系统计算机仿真及辅助设计‖Computer Aided Design and Simulation of Control System

1.5

4

20






1.5



010

100289E2

控制系统综合课程设计‖Comprehensive Course Design of Control Systems

2


80







2


010

100321E1

模糊控制及应用‖Fuzzy Control and Its Applications

2

24

8







2


010

100320E1

嵌入式控制系统及应用‖Embedded Control Systems Design and Applications

3

32

16







3


010

100324E1

嵌入式控制系统综合实验‖Comprehensive Experiments of Embedded Control Systems

1


40







1


010

100440E1

无人机控制技术‖Unmanned Aerial Vehicles Control Techniques

2

16

16








2

010

100325E1

移动机器人综合实验‖Comprehensive Experiments of Mobile Robot

1


40





1




010

100296E1

运动控制系统‖Motion Control Systems

3

40

8






3



010

100278E2

自动测试系统‖Automatic Test Systems

2

4

28






2



010


必修课程汇总‖Total

136.5

1466

1366

18

17

17.5

17

19

16

16

16


Materials Science and Engineering

Degree

Bachelor of Engineering (B.Eng.)

Normal Period of Study

4 years

Objectives

Materials science and engineering is concerned with the structure, properties, design, manufacture, and use of all classes of materials, and with energy, environment, health, economy, and manufacture issues related to materials. Materials science and engineering is a field critical to our future economic and environmental well-being. The students will be cultivated by developing a solid foundation in the fundamentals, methods and tools of the field, and gain a mastery of state-of-the-art methods of materials design, processing, analysis, modeling and computation. The graduates from this program will be in high demand in industry and government for jobs in research, development, production, and management, and they will be prepared to function knowledgeably, competitively and responsibly in a global professional environment.

Requirements

The students in this program will mainly study the basic theories of materials science and engineering, and understand the fundamental laws of materials synthesis, material processing and material application, etc. They will be trained to master the basic skills of analysis of material properties and structures, and have the abilities in materials design, processing, analysis, modeling and computation.

Core Courses

The cultivation of the major of materials science and engineering has the courses of general education and professional education. The foundational major courses are set according to the requirement of the first-level discipline, and the different kind of major subjects include specialized foundational courses and specialized required courses, etc.

Components of the 4-year Curriculum


Category

Credits

1.Specialized Courses

98credits

2.Discipline Education Courses

30 credits

3.Gerneral Education Courses

10 credits

材料科学与工程【英】专业教学计划进程表

Teaching Plan for Program of Materials Science and Engineering

课程编号

Course No

课程名称

Course Name

学分

Credit

课内学时

Credit Hours

学期Semester

开课学
院代码

School
Code

讲课Lecture

实践Practice

General Education Courses

580116E1

中国历史与文化‖History and Culture of China

2

32



2







058

210206E1

太极拳‖Chinese Kungfu

2

32


2








021

140228E1

中国概况‖China Panorama

2

32


2








014

581113E1

汉语入门(Ⅰ)‖Access to Chinese LanguageI)

2

32


2








058

582113E1

汉语入门(Ⅱ)‖Access to Chinese LanguageII)

2

32



2







058

Discipline Education Courses

060007E2

Visual C++程序设计‖C++  Programming Design

4

48

16

4








006

111208E4

大学物理(Ⅰ)‖College Physics ()

3.5

56



3.5







013

112208E4

大学物理(Ⅱ)‖College Physics ()

3.5

56




3.5






013

111209E4

大学物理实验(Ⅰ)‖Experiments in College Physics ()

1.5


24


1.5







013

112209E4

大学物理实验(Ⅱ)‖Experiments in College Physics()

1.5


24



1.5






013

111233E1

高等数学(Ⅰ)‖Calculus()

5

80


5








013

112233E1

高等数学(Ⅱ)‖Calculus()

6

96



6







013

110312E2

线性代数‖Linear Algebra

2

32




2






013

050217E1

工程制图‖Engineering Drawing

3

48


3








001

Specialized Courses

160732E1

有机材料化学‖Organic and Biomaterials Chemistry

3



3








016

161212E2

材料科学基础(Ⅰ)‖Fundamentals of Material Science()

2

32





2





016

162212E2

材料科学基础(Ⅱ)‖Fundamentals of Material Science()

3

48






3




016

161332E2

材料物理化学(Ⅰ)‖Physical Chemistry of Materials()

3

40

8



3






016

162332E2

材料物理化学(Ⅱ)‖Physical Chemistry of Materials()

2.5

32

8




2.5





016

160729E1

建模与模拟导论‖Introduction to Modeling and Simulation

3

32

16







3


016

161365E2

材料加工(Ⅰ)‖Materials Processing(Ⅰ)

3

44

4






3



016

162365E2

材料加工(Ⅱ)‖Materials Processing(Ⅱ)

3

42

6







3


016

160217E2

材料物理性能‖Physical Properties of Materials

3

44

4





3




016

160300E1

材料工程综合训练‖Comprehensive Training on Materials Engineering

4


160







4


016

160213E2

材料科学基础实验‖Fundamental Experiment of Material Science

2


32





2




016

100213E1

电工学‖Electrical Engineering

3

40

8



3






004

030225E6

分析化学‖Analytical Chemitry

2.5

24

16


2.5







003

230201E4

金属工艺实习‖Metalworking Training

2


80


2







022

110238E1

工程力学‖Engineering Mechanics

3

48





3





013

010241E2

机械设计基础‖Fundamentals of Mechanical Design

4

58

6




4





001

160375E5

微纳米加工技术‖Micro-Nanofabrication Technologies

3

44

4






3



016

160726E1

显微结构分析‖Imaging of Materials

2

24

8






2



016

160724E1

物理冶金学‖Physical Metallurgy

3






3





016

160725E1

衍射分析‖Diffraction and Structure

3

32

16






3



016

160310E2

材料力学行为‖Mechanical Behavior of Materials

4

52

12





4




016

160727E1

先进材料加工技术‖Advanced Materials Processing

2

26

6







2


016

160730E1

材料微结构的演变‖Microstructural Evolution in Materials

3







3




016

160731E1

新能源材料与器件‖Renewable Energy Materials and Devices

3

36

12






3



016

160252E3

纳米材料‖Nanoscale Materials

2

28

4






2



016

160733E1

晶体结构‖Symmetry, Structure, and Tensor Properties of Materials

3

46

2




3





016

160229E3

功能材料与器件‖Electrical, Optical, and Magnetic Materials and Devices

2

24

8







2


016

160728E1

环境材料‖Economic and Environmental Materials Selection

2

20

12







2


016

160263E4

毕业设计‖Graduation Project

14


560








14

016

160294E1

生物材料‖Biomaterials

2

30

2





2




016

160305E1

学科前沿系列讲座*‖Lectures on Frontiers of Chemical Engineering

1

16




1






016

160272E4

陶瓷导论

Introduction to Ceramics

3

44

4





3




016


必修课程汇总‖Total

138

1482

1062

21

19.5

14

17.5

20

16

16

14


注:课程名称标有“的课程为夏季学期开设的课程,一、三、五、七分别包含夏季、秋季两个学期,二、四、六、八为春季学期;

Notes:  Courses with are for summer semester. No. I, III, V, VII are for both summer and autumn semesters. No. II, IV, Ⅵ, Ⅷ are for spring semester.