Bachelor Degree Program in Measurement and Control Technology and Instrumentation

Release time:2019-09-18viewed:712

Measurement Technology and Instrumentation Major

Undergraduate Program Requirements


Category:  Engineering     Major Code: 080301     DegreeBachelor


Time   4  Year        Date   2018-2019   


1.Educational Objectives

According to the national development demand, which requires a solid professional foundation, a strong practice ability and moral, intellectual, physical all-round development, the program aims to cultivate students to higher professional and technical personnel, who can engage in scientific research, technology development, engineering design, operational management and teaching, in the sensor and testing technology, intelligent instrument, measurement and control system and other technical fields.

Expected goals of the graduates in this major who certificated in around five years:

Target 1. Students will be proficient in measuring information acquisition and preprocessing, analysis and design of the control system and related hardware and software development skills. Be able to design system of measuring and control technology and instrument. They will be capable of putting forward instrument system solutions and application system according to the requirements of the project.

Target 2. Students can be used as a member or leader and undertake a certain professional field of work independently in a team composed of different roles.

Target 3. Students will have a good accomplishment and moral standards

Target 4. With employment competitiveness in the field of measurement and control technology and instrument or have the ability to enter studying at the graduate level.

Target 5. Students will be capable of expanding their knowledge and ability through the other way.

Target 6. Students will have willingness and ability to serve the society.

2.Expected Attributes of Graduates

Students in this major are required to learn natural science, engineering foundation and professional knowledge; problem solving ability and innovative consciousness through the practice; stress on the humanities quality accomplishment and comprehensive development of knowledge, ability and quality. This professional training of students' knowledge, ability and quality requirements with 12.

1)Engineering knowledge: Students will possess the solid knowledge of math and natural science, basic knowledge of engineering, measurement and control technology and instrument specialty knowledge and economic and management knowledge, furthermore, solve the problem with integrated application of such knowledge.

2)The problem analysis: Students will master bibliographic retrieval, data search and the basic method of using the modern information technology to obtain relevant information, especially understand the related devices, products, systems and technology progress and the frontier through the electronic network, periodical information, etc. And provide recognition, expression, analysis based on the literature of specific engineering technical problem of measure and control technology and instrument, making full use of the basic principle of mathematics, natural science and engineering science, to reach an effective conclusion.

3)Design/exploit solutions: Students will master the basic method of innovation, own the innovative attitude and awareness and be able to design to meet the specific needs of the system, unit (parts), or process and put forward the solution of engineering problems, with the integrated use of theory and technology and considering the social, health, safety, legal, cultural, ethical and environmental factors.

4)Research: Students will cultivate the scientific thinking to gain the capacity of researching complex engineering problems by using the scientific method, including design experiments, analyze and interpret data, and through the comprehensive information to get the reasonable and effective conclusions.

5)Using modern tools: Students will keep on learning new knowledge, new technologies and new skills. Keep tracking and understanding of this major`s the current situation of the development of frontier and trend. Appropriate technology, resources and modern engineering tools and information technology tools could be developed, selected and used to solve complex engineering problems. Be able to provide reasonable projections for engineering problems and accurate simulations, and to understand its limitations, with foresight consciousness of development of the industry, the project planning.

6)Engineering and Society: Students will understand guidelines, policies and law about production, design, research and development, environmental protection and sustainable development of career and industry related to this major. Have a correct understanding and evaluation of the influence in the society, health, safety, law and culture, which caused by professional engineering practice and the solution to complex engineering problems. Understand the responsibilities.

7)Environment and Sustainable development: Students will understand and evaluate the influence of environment and sustainable development, which caused by professional engineering practice of complex engineering problems

8)Professional norms: Students will have the humanities and social science literacy, social responsibility and engineering ethics, and be able to follow engineering ethics and norms and hold responsibility.

9)Individual and Team: Students will train organization and management ability, expression ability and interpersonal skills in order to play a positive role in team under the background of the multidisciplinary and hold the post of individual and team members as well as the leader of team.

10)Communication: Students will develop effective communication skills, writing reports, presentation speech communication skills for effective communication and exchanges with industry peers and the social public for complex engineering problems. Have a certain international vision and can do communication and exchanges, competition and cooperation in a cross-cultural context.

11)PM(project management): Students will understand and grasp the method of project management theory and economic decision-making and apply in multidisciplinary environment.

12)Lifelong learning: Students will have the right understanding of autonomous learning and life-long learning and have the ability to constantly learn and adapt to the development.

3.Specialization and Related Majors

 1)The main discipline: Instrument Science and Technology.

The discipline of Instrument Science and Technology is an inter-discipline which integrating multiple ones. The main task is to acquire the information, and is closely coupled with the succeeding information transmission, processing and application, which will discuss and focus on the measurement theory, the measurement methods and the integration techniques for the measurement systems.

2)Related discipline: Optical Engineering, Mechanical Engineering, Information and Telecommunication Engineering, Computer Science and Technique, Control Science and Engineering.

3)Majors-related: Mechanical engineering and automation, Automation, Electrical engineering and automation, Optical Information Sciences and Technology

4.Curriculum

        See the teaching schedule

5.Main Practical Trainings

Preliminary Electrical and Electronic Practice, Digital system and logic design experiments, Measurement Technique and System Design, Experiment in Electronic Circuitry, Circuit experiment, Industrial systems, Experiment of Microcomputer, Mechanical Manufacture fundamental Practice, Modern Manufacturing Technology and Engineering Practice, Comprehensive course Design of Electronics, MCU Application System Design, DSP Application System Design, Embedded System Design, Comprehensive Course Design for Computer Engineering, Matlab language and application, Course Design for Precision Machinery, Production Practice, Final Year Project, Extra-curricular research study and etc.

6.Bilingual Courses

Computer architecture and logic design, Computer System and Interface, Computer network infrastructure and applications, Test signal analysis and processing, Virtual reality and data visualization, Computer aided Design and Simulation technology, Satellite navigation positioning technology and applications, Pattern Recognition, Control technology and System, GNSS receiver Technology Development, Matlab language and its application

7.Courses in English

Sensor Technology Error Theory and Data ProcessingIntroduction to information and communication network.

8.Research-Oriented Courses

Instrument Science and Technology Studies, Database technology and applications, Virtual Instrument technology, Detection technology and system design, Optoelectronic detection Technology, Control technologies and Systems, Computer network infrastructure and applications, Virtual reality and visualization of data, Mechatronics Technology, MEMS technology, Satellite navigation positioning technology and applications, information Navigation system, Innovative design of Robot, Wireless sensing network and its applications, Robot vision Measurement and Control technology, Innovative design of Modern instrumentation, Computer aided Design and Simulation technology, MCU application system design, Embedded system design, DSP application system Design, Pattern Recognition, Intelligent Vehicle Technology, Biological Micro Electromechanical Systems, Development of GNSS Receiver Technology.

9.Credits and Grade-Point Average Requirements

In adherence to the Regulations of The Southeast University for Credits Arrangement and Bachelor Degree Award, students qualify for graduation after obtaining a minimum of 154.5 credits and satisfying other relevant administrative conditions.They will be conferred the Degree of Bachelor in Engineering if they further satisfy all other University requirements.

10.  Curriculum Structure:

Course   Category

Credits

Credit hours

Credit Proportions

Foundation Courses for General Education

67

1276

43.37%

Foundation Courses for Discipline

57.5

1036

37.22%

Practical TrainingsContain the   extracurricular practice& Short Semester Courses

30

152

19.42%

Total

154.5

2464

100%

    1.Foundation Courses for General Education   67   Credits

1Ideology and Politics   16.5Creditscompulsory

  

Course  Code

Course   Title

Credits

Class   Hours

Computational   Lab. Hours

Out-of-class   Hours

Week   Hours

Teaching   School Year

Teaching   Term

Assessment   Type

note

  

Lectures   hours

Experimental   Lab. Hours

Discourse   hours

  

B15M0030

Outline of Modern Chinese History

3

48

  

  

  

  

3

1

3

+

  

  

B15M0010

The Basic Principles of Marxism

3

48

  

  

  

  

3

2

3

+

  

  

B15M0020

Mao Zedong Thought and Introduction to   Theoretical System of Socialism with Chinese Characteristics

5

48

  

  

  

64

3

2

3

+

  

  

B15M0040

Morals & Ethics and Fundamentals of Law

3

48

  

  

  

  

3

  

 1

+

  

  

B15M0070

Current Affairs & Policies (1)

0.25

8

  

  

  

  

2

  

1

-

  

  

B15M0080

Current Affairs & Policies (2)

0.25

8

  

  

  

  

2

  

1

-

  

  

B15M0090

Current Affairs & Policies (3)

0.25

8

  

  

  

  

2

  

2

-

  

  

B15M0100

Current Affairs & Policies (4)

0.25

8

  

  

  

64

2

  

2

-

  

  

B15M0110

Current Affairs & Policies (5)

0.25

8

  

  

  

  

2

  

3

-

  

  

B15M0120

Current Affairs & Policies (6)

0.25

8

  

  

  

  

2

  

3

-

  

  

B15M0130

Current Affairs & Policies (7)

0.25

8

  

  

  

  

2

  

4

-

  

  

B15M0140

Current Affairs & Policies (8)

0.25

8

  

  

  

  

2

  

4

-

  

  

B88M0010

Introduction to Employment

0.5

16

  

  

  

  

1

3

3

-

  

  

Total

16.5

272

  

8

  

38

  

  

  

  

  















2Military affairs andPhysical education    5Creditscompulsory

Course  Code

Course   Title

Credits

Class   Hours

Computational   Lab. Hours

Out-of-class   Hours

Week   Hours

Teaching   School Year

Teaching   Term

Assessment   Type

note

Lectures   hours

Experimental   Lab. Hours

Discourse   hours

B18M0010

Physical Education 

0.5

32

  

  

  

  

2

1

2

-

  

B18M0020

Physical Education 

0.5

32

  

  

  

  

2

1

3

-

  

B18M0030

Physical Education 

0.5

32

  

  

  

  

2

2

2

-

  

B18M0040

Physical Education 

0.5

32

  

  

  

  

2

2

3

-

  

B18M0050

Physical Education 

0.5

  

  

  

  

  

  

3

23

-

  

B18M0060

Physical Education 

0.5

  

  

  

  

  

  

4

2

-

  

B15M0060

Military theory

2

32

  

  

  

  

2

1

2

-

  

Total

5

160

  

  

  

  

  

  

  

  

  

3Foreign language  6Creditscompulsory

College Englishpractise graded teaching, students are recommended to learn College English II, College English III andCollege English IV, according to grading test scores.  

Course  Code

Course   Title

Credits

Class   Hours

Computational   Lab. Hours

Out-of-class   Hours

Week   Hours

Teaching   School Year

Teaching   Term

Assessment   Type

note

Lectures   hours

Experimental   Lab. Hours

Discourse   hours

B17M0010

College English II

2

32

  

32

  

  

4

1

2

+

  

B17M0020

College English III

2

32

  

32

  

  

4

1

3

+

  

B17M0030

College English IV

2

32

  

32

  

  

4

2

2

+

  

B17M0040

Advanced College English 

2

  

  

  

  

  

2

1

3

+

  

B17M0050

Advanced College English 

2

  

  

  

  

  

2

2

2

+

  

Total

6

96

  

96

  

  

  

  

  

  

  

  

4Computer Class   3.5 Creditscompulsory

Course  Code

Course   Title

Credits

Class   Hours

Computational   Lab. Hours

Out-of-class   Hours

Week   Hours

Teaching   School Year

Teaching   Term

Assessment   Type

note

Lectures   hours

Experimental   Lab. Hours

Discourse   hours

B99M0010

Fundamentals   of Computer(Science and Engineering)

  

  

  

  

20

4

2

1

2

+

  

B99M0070

Programming   & Arithmetic Language(electrical)

2

40

  

  

32

4

4

1

2

+

  

B99M0080

Programming   & Arithmetic Language(electrical)

1.5

36

  

  

32

4

4

1

3

+

  

Total

3.5

76

  

  

84

12

  

  

  

  

  

5The natural sciences     25 Creditscompulsory

Course  Code

Course   Title

Credits

Class   Hours

Computational   Lab. Hours

Out-of-class   Hours

Week   Hours

Teaching   School Year

Teaching   Term

Assessment   Type

note

Lectures   hours

Experimental   Lab. Hours

Discourse   hours

B07M0250

Numerical Methods

2

32

16

  

  

  

2

2

3

+

  

B07M0260

Mathematical Modeling and Lab

2.5

48

16

  

  

  

3

2

3

+

  

B07M0030

CalculusA

4.5

96

4

  

  

  

6

1

2

+

  

B07M0180

Geometry and AlgebraB

3

64

4

  

  

  

4

1

2

+

  

B07M0040

CalculusA

5

96

4

  

  

  

6

1

3

+

  

B10M0030

College PhysicsB1)Ⅰ

3

64

0

  

  

  

4

1

3

+

  

B10M0140

Physics lab 

1

0

32

  

  

  

2

1

3

-

  

B07M0210

Probability and Mathematical StatisticsA

2.5

48

4

  

  

  

3

2

2

+

  

B10M0040

College PhysicsB1)Ⅱ

3

48

0

  

  

16

3

2

2

+

  

B10M0150

Physics lab 

1

0

32

  

  

  

2

2

2

-

  

Total

25

496

112

  

4

16

  

  

  

  

  

6Elective Courses of General Education    10CreditsElectives

Course  Code

Course   Title

Credits

Class   Hours

Computational   Lab. Hours

Out-of-class   Hours

Week   Hours

Teaching   School Year

Teaching   Term

Assessment   Type

note

Lectures   hours

Experimental   Lab. Hours

Discourse   hours

B00TL010

General  Education  Courses   on Arts and Social Science

6

96

  

  

  

  

  

  

  

-

  

B00TL060

General  Education  Courses   on Economic Management

2

32

  

  

  

  

  

  

  

-

  

B00TL070

General  Education  Courses   on Natural Science

2

32

  

  

  

  

  

  

  

-

  

Total

10

160

  

  

  

  

  

  

  

  

  

  

2. Courses related to the major  58.5 Credits

1Discipline basic course  30Credits

Course  Code

Course   Title

Credits

Class   Hours

Computational   Lab. Hours

Out-of-class   Hours

Week   Hours

Teaching   School Year

Teaching   Term

Assessment   Type

note

Lectures   hours

Experimental   Lab. Hours

Discourse   hours

B2200010

Instrument Science and Technology Studiesseminar

1

16

  

16

  

  

4

1

3

-

  

B2201020

Fundamentals of Circuit Analysis

4

64

  

  

  

  

4

2

2

+

  

B2201040

Computer Architecture and Logic DesigningBilingual

4

64

  

  

  

  

4

2

2

+

  

B05M0100

Engineering Mechanics B

3

56

8

  

  

  

4

2

3

+

Exercises   8 hours

B2201050

Fundamentals of Electronic Circuit

4

64

  

  

  

  

4

2

3

+

  

B2201030

Signal and System

3

48

  

  

  

  

3

2

3

+

  

B2201060

Micro-computer system and interfaceBilingual

3

48

  

  

  

  

3

2

3

+

  

B2201010

Engineering Optics

3

48

  

  

  

  

3

3

3

+

  

B2201070

Automatic Control Principle

3

44

8

  

  

  

3

3

2

+

  

B2201080

Introduction to Information Communication   NetworkEnglish

2

40

16

  

  

  

3

3

3

+

  

Total

30

492

32

16

  

  

38

  

  

  

  

2Professional backbone courses  18.5 Credits

Course  Code

Course   Title

Credits

Class   Hours

Computational   Lab. Hours

Out-of-class   Hours

Week   Hours

Teaching   School Year

Teaching   Term

Assessment   Type

note

Lectures   hours

Experimental   Lab. Hours

Discourse   hours

B2202070

Navigation Positioning Control and Its   Application

  

  

  

  

  

  

  

  

  

  

  

B2202080

Advanced Control Theory

  

  

  

  

  

  

  

  

  

  

  

B2202090

Virtual Instrument Technologyseminar

  

  

  

  

  

  

  

  

  

  

  

B2202010

Sensor Technology

  

  

  

  

  

  

  

  

  

  

  

B2202020

Sensor TechnologyEnglish

  

  

  

  

  

  

  

  

  

  

  

B2202030

Signal Analysis and ProcessingBilingual

  

  

  

  

  

  

  

  

  

  

  

B2202050

Elementary Precision Machinery Design

  

  

  

  

  

  

  

  

  

  

  

B2202040

Theory of Errors and Data ProcessingEnglish

  

  

  

  

  

  

  

  

  

  

  

B2202060

Intelligent Instrument Design Technology

2

40

16

  

  

  

3

3

3

+

  

Total

18.5

290

40

16

4

  

21

  

  

  

  

3Specialized & Interdisplinary Elective Courses  12.5Credits

Course  Code

Course   Title

Credits

Class   Hours

Computational   Lab. Hours

Out-of-class   Hours

Week   Hours

Teaching   School Year

Teaching   Term

Assessment   Type

note

Lectures   hours

Experimental   Lab. Hours

Discourse   hours

B0202080

The electromagnetic compatibility principle   and application

2

30

4

  

  

  

2

3

2

-

  

B0203560

electrical & mechanical design

2

24

  

24

  

  

3

3

2

-

Limited   to choose 2Credits

B0609010

Fundamentals of VLSI Design (other   department)

2

32

  

  

  

  

2

3

2

-

B0910680

Image Processing

2

32

  

  

  

  

2

3

2

-

B0493010

Communication Theory(interdisciplinary)

2

32

  

  

  

  

2

3

3

-

B0802020

Power electronic technology

2

26

12

  

  

  

2

3

3

-

B0910310

Software architecture

2

32

  

  

  

  

2

3

3

-

B0910690

Data Structure

2

32

  

  

  

  

2

3

3

-

B2203010

Database Technology and its Applicationseminar

2

16

16

16

  

  

3

2

3

-

B2203030

Computer aided design and simulation   technologyBilingual)(seminar

2

24

  

24

  

  

24

3

1

-

B2203020

Virtual Reality and Data VisualizationBilingual)(seminar

2

16

16

16

  

  

3

3

2

-

B2203190

Navigation instruments Bilingual)(seminar

2

16

16

16

  

  

3

3

2

-

B220320

Technology Entrepreneurship

2

32

  

  

  

  

2

3

2

-

B2203210

Introduction to Indoor Mobile Positioning   Technology Bilingual

2

28

8

  

  

  

2

3

2

-

B2203040

Pattern recognitionBilingual)(seminar

2

16

16

16

  

  

3

3

3

-

B2203050

Foundation of computer network and   applicationBilingual)(seminar

2

16

16

16

  

  

3

3

3

-

B2203060

Photoelectric detection technologyseminar

2

24

  

24

  

  

3

3

3

-

B2203180

Intelligent vehicle technologyseminar

2

32

  

  

  

  

2

3

3

-

B2203070

BioMEMSseminar

2

16

16

16

  

  

3

4

2

-

B2203080

GNSS receiver technology developmentBilingual)(seminar

2

16

16

16

  

  

3

4

2

-

B2203090

Control Technology and SystemsBilingual)(seminar

2

16

16

16

  

  

3

4

2

-

B2203100

Innovative Design of Robots(seminar)seminar

2

16

16

16

  

  

3

4

2

-

B2203110

Wireless sensor network   and  applicationseminar

2

16

16

16

  

  

3

4

2

-

B2203120

Mechanical & Electrical Integrationseminar

2

18

  

30

  

  

3

4

2

-

B2203130

MEMSseminar

2

22

4

22

  

  

3

4

2

-

B2203140

Satellitic Navigation Positioning Technology   and its ApplicationBilingual)(seminar

2

18

  

30

  

  

3

4

2

-

B2203150

Information Navigating Systemsseminar

2

24

  

24

  

  

3

4

2

-

B2203160

Innovative Design of Modern Instrumentsseminar

2

24

  

24

  

  

3

4

2

-

B2203170

Robot vision measurement and control   technologyseminar

2

16

16

16

  

  

3

4

2

-

B2200110

Engineering Graphics and CAD

2.5

48

  

  

  

  

3

12

2

-

Total

12.5

208

204

378

16

  

12

  

  

  

  

3. Experiments and practicecontain the extracurricular practice& Short semester courses  23.5 Credits

Course  Code

Course   Title

Credits

Class   Hours

Computational   Lab. Hours

Out-of-class   Hours

Week   Hours

Teaching   School Year

Teaching   Term

Assessment   Type

note

Lectures   hours

Experimental   Lab. Hours

Discourse   hours

B17M0060

English Foundation Intensive Training

0.5

16

  

  

  

  

1

2

1

-

  

B2205040

Comprehensive Course Design for Computer   Engineering

0.5

16

  

  

  

32

12

2

1

-

  

B84M0020

Electrical and   electronic  preliminary practice B

0.5

  

16

  

  

  

4

2

1

-

  

B2205010

Matlab Language and its ApplicationBilingual

1

16

16

  

  

  

8

3

1

-

  

B2205080

Comprehensive electric system design

1

  

32

  

  

  

8

3

1

-

  

B2205020

Practice in Production

1

  

  

  

  

  

16

4

1

-

  

B2205090

Course Design for Precision Machinery 

1

  

32

  

  

  

16

4

1

-

  

B2205100

Social practice

1

  

  

  

  

  

  

3

2

-

  

B2205110

Cultural Practice of Quality Education

1

  

  

  

  

  

  

4

3

-

  

B2205120

SRTP(Student Research Training Program)

2

  

  

  

  

  

  

4

3

-

  

B85M0010

Military Trainingwith theory

1

  

  

  

  

  

3

1

1

-

  

B2205130

Embedded system Designseminar

2

16

16

16

  

  

3

4

2

-

  

B2205140

DSP system designseminar

2

16

16

16

  

  

3

4

2

-

  

B81M0040

Industrial System Identification 2Electives

0.5

  

  

  

  

  

2

1

2

-

  

B0483060

Innovation & management

2

32

  

  

  

  

8

3

1

-

  

B81M0030

Industrial System Identification 1

0.5

  

  

  

  

  

1

1

2

-

  

B84M0040

Digital Circuits Laboratory A

1

  

32

  

  

  

3

2

2

-

  

B84M0070

Electronic Circuit Lab

0.5

  

16

  

  

  

4

2

2

-

  

B2205060

Micro-Computer Lab

1

  

32

  

  

  

2

2

3

-

  

B81M0010

Fundamentals of Manufacturing and Practice

1

8

32

  

  

  

  

2

3

-

  

B84M0030

Electronic process practice A

0.5

  

16

  

  

  

4

2

3

-

  

B84M0060

Analog Circuit Lab

1

  

32

  

  

  

3

2

3

-

  

B2205050

MCU system designseminar

2

16

16

16

  

  

3

3

2

-

  

B2205070

Measurement Technique and System Designseminar

2

16

16

16

  

  

3

3

3

-

  

B2205030

Senior Project Design

8

  

  

  

  

  

8

4

3

-

  

Total

30

152

320

64

  

32