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2016版自动化类自动化专业培养方案英文版

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Undergraduate Program for Automation Major

I.General Description

The specialty of Automation is a sub-discipline of automation-clustering major. This major is the one of the national characteristic specialized construction majors and the national comprehensive reform pilot specialty. This major is characterized by the combination of systematic theory and broad engineering applications, and it fuses many disciplinary and interdisciplinary. This major cultivates students on mastering fundamental theory of control science and engineering, specialized knowledge and basic technology. Mastering traffic management and control, industrial automation, trail traffic signal and control, intelligent instrument and so on theories and methods are also essential for this major. The students will be trained focusing on the acquiring, processing, using and controlling of the information, prolonged foreign language study, computer application, enhance the engineering awareness. All the students will be encouraged to get their diversified and personalized development to improve their adaptability to be high-level, innovative, comprehensive talented persons.

II.Objectives

The program nurtures composite talents with all-round development of moral, intellectual, physical, aesthetic and labor, and a harmonious unity of knowledge,cultivate senior-versatile engineer and technical talents. Students need to master the solid foundation ofmathematics, physics, computer science, foreign language, humanity, economy management, and related basic knowledge etc. Students need to master electric circuit, automatic control, electromechanical engineering, traffic management and control etc. with related basic theory, specialized knowledge and technology, owninga good spirit of innovation, professionalism, engineering, humanities and international perspective. They are able to work in the fields of traffic control, industrial automation, and engaged in various related fields work. The training of students could work on scientific research, systematic design, product development, management and operation. Students have the comprehensive ability to use knowledge in wide area to solve complex engineering problem to be a scientific research talents.

III. Basic Requirements

With the requirement of the economic development, this major produces well-trained graduates. They are ready to take on the challenges of the workplace with solid basic knowledge, widely-informed and practice-oriented training program.After the curriculum study, experimental and engineering training for four years, students in this specialty should acquire the knowledge, abilities and qualities as follows:

1.Basic knowledge:Master the related mathematics, natural science and otherengineering knowledge to solve complex automation problems.

2.Problem analysis: Acquiring the integrated ability tousethe basic principles ofrelated mathematics, natural science and automation science with literature studytoidentify, analyze and conclude the technical problems in automation engineeringby the comprehensive application of their learned scientific theoretical methods and technical means.

3.Technical solutions:Holding the basic ability of system design, operation and maintenance to solve complexautomation engineering problemswith innovative consciousness and innovative abilities, and also take think of thesocial issuessuch as healthcare, safety, legal, culture and environment factors to participate in the design and production system.

4.Research:With the ability to analyze and solve the practical problems in automation engineering experiments, data processing, and synthesis to give a conclusion by the comprehensive application of their learned scientific theoretical methods and technical means;

5.New technology: Training professional automation engineers who familiars with the frontier to meet the demand for developing automation technology; having ability to develop, select, and combine the proper resources, modern tools and so on to solve complex automation engineering problems with ability of analysis, modeling, simulation and applications.

6.Engineering and society: Having good humanities attainment, strong social responsibility and good engineering professional ethics; Having good sense on quality, environment, safety and service;

7.Environmental and social sustainability: With the ability to analyze and evaluate the practical problems with consideration of the environmental and social sustainability.

8.Technical terms: Understanding of the professional field of technical standards, relevant industry policies, laws and regulations; having good sense on the engineering ethics, safety, and acquiring the integrated ability to use scientific methods and theories learned techniques to analyze and solve practical engineering problems.

9.Teamwork: With good capability of cooperation in team-work.

10.Communication: Having communication skills in writing or oral with co-workers and other people on the professional issues in the area of automation; having the ability to communicate with a certain preliminary competition and cooperation in international perspective and cross-cultural environment.

11.Project management: Having good organization and management skills to deal with changeable and complicated engineering problems.

12.Life-long learning: Being ability to acquire information and keep study for the whole life.

IV. Length of Schooling and Conferred Degree

Four years, Bachelor of Engineering

V. Core Disciplines and Special Courses

Core Disciplines: Control Science and Engineering (first level discipline), Transportation Information Engineering and Control (second level discipline),

Core Courses: Electronic Circuit, Automatic Control Principle, Modern Control Theory, System of Microcomputer and Single Chip Computer, Foundation to Electric Machines and Motor Drive, Sensor and Detection Technology, Computer Control Technology, Computer Network and Communication, Motion Control System, Highway Electromechanical System, Rail Transit System, Intelligence Instrument Design.

Specialize Courses:Networked Control Technology, Robotics Technology, Transportation Flow Theory, Transportation Management and Control, Signal and Communication of Rail Transit, Rail Transit Train Operation Control, Instrument Bus and Virtual Instruments, Modern Traffic Information Detection Technology etc.

VI.Graduation Requirements

After completing the learning of every link in teaching program according to this cultivation program, obtaining at least 175 scores, and passing through the graduation thesis or design, students can graduate and get their Bachelor's Degree.

VII.Time Allotment

Time Allotment

Course Types

Compulsory Courses

Elective Courses

Total

Proportion%

Credits

Hours

(weeks)

Credits

Hours

(weeks)

Credits

Hours

(weeks)

General Education Courses

Theory

32

648

14

230

46

878

26.29

Practice

7

2weeks+48hours

3


10

2weeks+ 48hours

5.71

Foundation Courses of Discipline

Theory

53.5

893



53.5

893

30.57

Practice

9

9 weeks



9

9 weeks

5.14

Specialize Courses

Theory

11.5

184

22

352

33.5

536

19.14

Practice

6

6 weeks

17

19weeks

23

25weeks

13.14

Total

119

1725 hours+17weeks+48hours

56

582 hours+

19 weeks

175

2307 hours+ 36 weeks+

48hours

100

Practice

22

17weeks+48hours

20


42

36weeks+48hours

24

VIII.Curriculum

Curriculum of Automation Major

Course Types

Course Codes

Course Titles

Course Nature

Credits

Hours per week

Lecturing Hours

Suggested Terms

Remarks

Total

Lecturing

Experiment

On Computer

Extracurricular

General Education Courses

T1101010

Moral Education and Laws

C

3

4

54

36



18

1


T6401010

Military Theory

C

2

2

36

36




1


T1402011

Physical Education(I)

C

1

2

36

36




1


T1301011

College English ( I )

C

4

4

72

72




1



General Electives

E

11







1-8

Basic computer courses≥2credits; Public art courses≥2 credits; innovation and employment guidance courses≥2credits; Psychology education courses≥1credits

Foundation Courses of Discipline

X1201011

Higher Mathematics(I)

C

5

6

90

90




1


X3201010

Introduction to Electrical Engineering

C

1

2

16

16




1


X3201020

Preliminary to Automation Practice

C

2

4

32

16

16



1


X1204090

Mechanical Drawing

C

2

4

32

20


12


1


Practice Courses

S1101010

Situation & Policy

C

2


32

32




1-8

Recorded in 8th term

S6401010

Military Training

C

2


2weeks





1


S6400030

Practice Courses for Freshman Education

C

1







1-2

Recorded in 2th term

S6400020

Practice Courses for Ideological and Political Morality

C

1







1-8

Recorded in 8th term

S6400010

Comprehensive Quality Practice

E

3







1-8

≥3 Credits

S1402010

Physical Education Test

C

1


16





1、3、5、7

Test in 1st、3rd、5th、7th term respectively,Recorded in 8th term

S3202010

General Visiting Practice

C

1


1week





1


28 credits for compulsory courses, 14 credits for electives, 28 credits in total in 1st term

(14 credits for general electives and Comprehensive quality practice courses are not included)

Course Types

Course Codes

Course Titles

Course Nature

Credits

Weekly Hours

Lecturing Hours

Suggested Terms

Remarks

Total

Lecturing

Experiment

On Computer

Extracurricular

General Education Courses

T1101020

Introduction to Modern Chinese History

C

2

2

36

26



10

2


T1402012

Physical Education(Ⅱ)

C

1

2

36

36




2


T1301012

College English (II)

C

4

4

72

72




2


Foundation Courses of Discipline

X1201012

Higher Mathematics (II)

C

5

6

90

90




2


X1202011

College Physics (I)

C

3

4

54

54




2


X2407010

C Language Program Design

C

3

4

48

32


16


2


X3205120

Electronic Circuit (I)

C

4

4

64

44

20



2


specialized Courses





































Practice Courses

S3202020

System Integrated Experiment of Microcomputer and Single Chip Computer

C

4


4 weeks





2


























26 credits for compulsory course, 26 credits for the total in 2nd term

Course Types

Course Codes

Course Titles

Course Nature

Credits

Weekly Hours

Lecturing Hours

Suggested Terms

Remarks

Total

Lecturing

Experiment

On Computer

Extracurricular

General Education Courses

T1101030

An Introduction to Marxist Theory

C

3

4

54

36



18

3


T1403013

Physical Education(Ⅲ)

C

1

2

36

36




3


T1301013

College English ( III )

C

4

4

72

72




3


Foundation Courses of Discipline

X1202012

College Physics (II)

C

3

4

54

54




3


X1202050

College Physical Experiment

C

2.5


45

0

45



3-4


X1201030

Linear Algebra

C

2.5

4

40

40




3


X1201050

Complex Variables and Integral Transformations

C

3

4

48

48




3


X3205130

Electronic Circuit (II)

C

4

4

64

40

24



3


Specialized Courses





































Practice Courses

S5701020

Cold Machining Practical Training

C

2


2 weeks





3


























25 credits for compulsory course, 25credits for the total in 3th term

Course Types

Course Codes

Course Titles

Course nature

Credits

Weekly Hours

Lecturing Hours

Suggested Terms

Remarks

Total

Lecturing

Experiment

On Computer

Extracurricular

General Education Courses

T1101040

Mao Zedong Thought & Socialist Theory with Chinese Characters

C

6

6

108

72



36

4


T1403014

Physical Education (Ⅳ)

C

1

2

36

36




4



Integrated English

E

3

4

54

54




4

≥3Credits

Foundation Courses of Discipline

X1201040

Probability and Mathematical Statistics

C

3

4

48

48




4


X3205140

Electronic Circuit (III)

C

4

4

64

44

20



4














Specialized Courses

Z3202010

Principle and Application of PLC

C

2

4

32

16

16



4


Z3202020

Object-Oriented Programming

C

2

4

32

20

12



4


Z3202030

Computer Network and Communication

C

2

4

32

28

4



4


Practice Courses

S3205020

Course Exercise in Electronic Technology

C

2


2weeks





4














22 credits for compulsory course, 3 credits for minimumelectives,25credits for the total in 4th term

Course Types

Course Codes

Course Titles

Course Nature

Credits

Weekly Hours

Lecturing Hours

Suggested Terms

Remarks

Total

Lecturing

Experiment

On Computer

Extracurricular

General Education Courses

X3202030

Automatic Control Principle

C

4.5

4

72

60

12



5


X3202040

Sensor and Detection Technology

C

2

4

32

26

6



5














Foundation Courses of Discipline

Z3202040

Foundation to Electric Machines and Motor Drive

C

3

4

48

38

10



5


Z3202050

Power Electronic Technology

E

2.5

4

40

32

8



5


Z3202060

Data Structure and Algorithm

E

2

4

32

24

8



5


Z3202070

Signal and System

E

2

4

32

28

4



5


Z3203010

Transportation Flow Theory

E

2

4

32

24

8



5

Traffic Information and Control

Z3203020

Transportation Engineering

E

2

4

32

24

8



5

Z3203030

Transportation Management and Control

E

2

4

32

28

4



5

Z3203040

Database

E

2

4

32

28

4



5

Z3204010

Modern Electric Vehicle Technology

E

2

4

32

32




5

Industrial Automation

Z3204020

Machine Vision

E

2

4

32

24

8



5

Z3204030

Power Supply Technology

E

2

4

32

32




5

Z3204040

Embedded Systems and Applications

E

2

4

32

24

8



5

Z3206010

Device and Application of Semiconductor

E

2

4

32

32




5

Intelligent Instrument

Z3206020

Hardware Description Language

E

2

4

32

24

8



5

Z3206030

ASIC Design

E

2

4

32

28

4



5

Z3206040

Electric Measurement Technology

E

2

4

32

32




5

Z3209010

Rail Transit System

E

2

4

32

32




5

Rail Traffic Signal and Control

Z3209020

Rail Transit Vehicle Communication Network

E

2

4

32

28

4



5

Z3209030

Rail Transit Vehicle

E

2

4

32

32




5

Z3209040

Technology and Application of Internet of things

E

2

4

32

32




5

Practice Courses

S3202030

Integrated Experiment of Computer Program Design

C

2


2weeks





5














14credits for compulsory course,8 credits for minimumelectives,22credits for the total in 5th term

Course Types

Course Codes

Course Titles

Course Nature

Credits

Weekly Hours

Lecturing Hours

Suggested Term

Remarks

Total

Lecturing

Experiment

On Computer

Extracurricular

General Education Courses





































Foundation Courses of Discipline

Z3202080

Modern Control Theory

C

2.5

4

40

36

4



6


Z3202090

Computer Control Technology

E

2.5

4

40

36

4



6


Z3202100

Control System Simulation

E

2

4

32

28

4



6


Z3202110

Introduction to System Engineering

E

2

4

32

32




6


Z3202120

Literature Review and Technical English

E

2

2

32

32




6


Z3202130

Engineering Project Management

E

2

4

32

32




6

One choose from two

Z2307420

Modern Economic Management

E

2

4

32

32




6

Z3202140

Operational Research and Optimal Theory

E

2

2

32

32




6


Z3203050

Transportation Simulation and Applications

E

2

4

32

24

8



6

Traffic Information and Control

Z3203060

Highway Electromechanical System

E

4

4

64

64




6

Z3203070

Intelligent Transportation System

E

2

4

32

32




6

Z3203080

Principle of Communication

E

2

4

32

28

4



6

Z3204050

Motion Control System

E

2

4

32

28

4



6

Industrial Automation

Z3204060

Networked Control Technology

E

2

4

32

32




6

Z3207330

Process control

E

2

4

32

28

4



6

Z3204070

Automation System Integration Method and Applications

E

2

4

32

32




6

Z3206050

Instrument Bus and Virtual Instruments

E

2

4

32

28

4



6

Intelligent Instrument

Z3206060

Digital Signal Processing

E

2

4

32

28

4



6

Z3206070

Error Theory and Data Processing

E

2

4

32

32




6

Z3206080

Photoelectric Detection Technology

E

2

4

32

32




6

Z3209050

Rail Transit Train Operation Control

E

2

4

32

28

4



6

Rail Traffic Signal and Control

Z3209060

Signal and Communication of Rail Transit

E

2

4

32

32




6

Z3209070

Rail Transit Vehicle Electric

E

2

4

32

26

6



6

Z3209080

Rail Transit Operation

E

2

4

32

32




6

Practice Courses

S3202040

Integrated Experiment of Automation Specialty

C

4


4weeks





6














9credits for compulsory course,10 credits for minimumelectives,19 credits for the total in 6th term

Course Types

Course Codes

Course Titles

Course Nature

Credits

Weekly Hours

Lecturing Hours

Suggested Term

Remarks

Total

Lecturing

Experiment

On Computer

Extracurricular

Foundation Courses of Discipline

Z3202150

Advanced Control Technology

E

2

4

32

32




7


Z3205010

Modern Electronic Technology

E

2

4

32

32




7


Z3203090

Transportation Data Mining and Analysis

E

2

4

32

32




7

Traffic Information and Control

Z3203100

Transportation Planning

E

2

4

32

32




7

Z3204080

Robotics Technology

E

2

4

32

28

4



7

Industrial Automation

Z3204090

Introduction to Artificial Intelligence

E

2

4

32

32




7

Z3206090

Intelligence Instrument Design

E

2

4

32

32




7

Intelligent Instrument

Z3206100

Modern Traffic Information Detection Technology

E

2

4

32

32




7

Z3209090

Rail Transit Security

E

2

4

32

32




7

Rail Traffic Signal and Control

Z3209100

New Technology of Rail Transit

E

2

4

32

32




7

Practice Courses

S3202050

Engineering Design and Enterprise Practice

E

4


18weeks





7

Factory practice and graduation design exchange 4 credits













4 credits for minimumelectives, ,4credits for the total in 7th term

Course Types

Course Codes

Course Titles

Course Nature

Credits

Weekly Hours

Lecturing Hours

Suggested Terms

Remarks

Total

Lecturing

Experiment

On Computer

Extracurricular

Foundation Courses of Discipline





































Practice Courses

S3202060

Production Practice

E

3


3weeks





8

Scheme 1

S3202070

Graduation Design(Thesis)

E

14


16weeks





8

S3202080

Enterprise Practice and Graduation Design

E

17


18weeks





8

Scheme 2

17credits for compulsory course, 21credits for the total in 8th term

X. Programming persons

Responsible person: Maode Yan

Participant: Guiping Wang, Xianwu Gong, Xiwei Zhou

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