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控制工程学科专业学位硕士研究生培养方案(2018)

2018年10月17日 08:32  点击:[]

控制工程学科专业学位硕士研究生培养方案

Schedule of Master Disciplines for Control Engineering

专业代码: 085210                             学科门类: 工学       

Code of Specialty: 085210                      Department of Discipline: Engineering

一级学科:工程                            学分要求: 33学分       

First-class Discipline: Engineering                  Credit Setting:  33    

一、学科、专业简介 (Disciplines Instruction)

控制工程学科系我校首批获批的具有工程硕士学位授予权的学科。该学科针对生产过程的特点,研究控制工程学科中具有前沿性的控制理论及其工程应用,在多年的发展中,形成了四个主要研究方向,每一个研究方向均有学术水平高和工程经验丰富的带头人支撑。多年来,本学科在研究生培养和学术研究方面获得了十分显著的成绩,已培养了一批高质量、高层次专业技术人才。本学科现有教授16人,副教授37人,具有博士学位教师27人。承担国家自然科学基金、省市基金、863计划和国家攻关项目等各类科研项目100余项,承担本领域众多横向项目的开发研制工作,形成了特色鲜明、结构稳定的研究方向和学术队伍,取得的成果在山东省乃至国内具有先进水平。近年来,发表各类学术论文800余篇,其中被SCIEIISTP收录240余篇,获得国家及省部级以上奖励近30

Control Engineering is one of the first engineering disciplines owing the right to grant master's degree in our university. Based on the characteristics of the production process, this discipline has been researching the frontier control theory as well as its engineering application. During many years’ development, there are four major research directions, which are all guided by the leaders with high academic standards and full engineering experience. Over the years, this department has gained significant achievements in the graduate students training, academic research and high-quality, high-level technical professionals fostering. Now we have 16 professors, 37 associate professors, and 27 lectures with doctorates in this discipline. We undertake more than 100 research projects, including the National Natural Science Foundation of China, provincial and municipal funds, 863 plans, national research projects and many enterprise-funded latitudinal projects in this field. Our academic research team has distinctive characteristics and stable structure, and has obtained advanced achievements in Shandong Province and nationwide. In recent years, we have published more than 800 peer reviewed academic articles, of which more than 240 papers are indexed by SCI, EI and ISTP. We have also gained about 30 awards of the national and provincial levels.

二、培养目标( Objectives of Training)

全日制专业学位研究生的培养目标侧重于工程应用,培养现代工业、农业、国防自动化设备中控制系统和装置研究、设计、开发、管理、维修的高层次工程技术人才和企业管理人才。

The training objectives for Master of Engineering in Control Engineering discipline focus primarily on the engineering applications, aiming for fostering engineers and managers of high levels who are talented on control system and device research, design, exploitation, management and maintenance in the field of modern industry, agriculture and national defense automation equipment.

培养要求如下:

The detailed training requirements are listed as follows:

1.掌握马克思主义、毛泽东思想和邓小平理论,拥护党的基本路线和方针政策,热爱祖国,遵纪守法,具有良好的职业道德和创业精神,积极为我国经济建设和社会发展服务。

Grasping of Marxism, Mao Zedong Thought and Deng Xiaoping Theory, upholding the Party's basic line, principles and policies, loving mother country, obeying the laws, with good work ethic and entrepreneurial spirit, serving vigorously on China's economic construction and social development.

2.掌握控制工程学科领域的基础理论和专业知识、具有较强的解决实际问题的能力,能够承担专业技术或管理工作、具有良好的职业素养的高层次应用型专门人才。

Mastering a solid foundation and broad theoretical knowledge of the control engineering disciplines, having strong ability to solve practical problems and to undertake professional or managerial jobs, having high-level professional qualities.

3. 掌握一门外国语,能够熟练地阅读本工程领域的专业文献资料和撰写论文

Mastering a foreign language, capable of reading professional literatures and writing academic papers.

4. 掌握现代控制领域的基础理论、方法和技术;本领域的工程硕士应具有一定实际工作经验,能解决工程实际中出现实际问题,具有从事实际控制系统、设备或装置的开发设计能力、工艺设计和实施能力及使用维护等能力。

Grasping the basis of the modern control field theory, methods and techniques. Engineering Master in this discipline should have some field experience to solve practical problems, and should be capable of developing and designing, art design, implementation and maintenance of the practical control system, equipment or devices.

 

三、学制及学习年限Educational System and Duration of Studying

1.全日制专业硕士生的学制为3学年,实行学分制,培养年限最长为5学年,其中课程学习时间为1学年,成绩有效期为5学年。

The training time for the full-time master candidate is 3 academic years, and is normally less than 5 academic years. The course studying will be finished in 1 academic years. The credit system is employed and the grades are valid for 5 academic years.

2学分要求(Credit requirements)

全日制专业硕士生所修课程的总学分不少于33学分,其中学位课程(必修,包括政治理论、外语、数学、知识产权和专业必修课)不少于17学分,非学位课程不少于8学分,研究环节8学分。

The total courses credit for the full-time professional master candidates should not be less than 33 credits, with degree course (Required courses, including political theories, foreign languages, mathematics, intellectual property and professional courses) not less than 17 credits, non-degree courses not less than 8 credits and research 8 credits.

 

四、研究方向(Research Orientation)

序号

Num

    

Name

研究方向及特点

The Research Orientation and Characteristics

1

工业过程控制系统的建模、仿真与优化

Modelling,   simulation and optimization for industrial process control

 

基于大数据的工业过程控制、优化系统及其性能监测方法,以及工程实现问题。主要研究特色包括:

1)过程监控数据驱动子空间方法的基础研究。

2)过程控制系统性能评估的基础及应用研究。

3)数据驱动的动态建模方法、学习控制方法及应用的研究。

4)基于神经网络的复杂非线性系统建模与控制的研究。

Big   data based industrial process control, system optimization and performance   monitoring methods, as well as the engineering applications. The main   research characteristics:

(1)   The fundamental research on data-driven subspace method in the process   monitoring.

(2)   The fundamental and application research on the performance evaluation in the   process control.

(3)   Research on data-driven dynamic modeling, learning control methods and   applications.

(4)   Research on modeling and control for complex nonlinear systems based on   neural networks.

2

信息检测与处理

Information   detection and processing

1)信息检测技术的理论和应用研究。主要围绕着现代信号检测理论、确定性信号的检测、随机参量信号的检测与处理等开展一系列的理论研究,并取得丰富的研究成果;同时运用人工智能理论和技术,研究复杂工业过程智能检测理论、方法和技术,研究软测量技术及网络化智能检测和测控系统的开发以及虚拟仪器的开发。

2)以智能交通为应用背景的智能信息处理领域的理论和应用研究。(3)地理信息系统研究与应用。

(1) Theoretical and application   research on information detection technology. Mainly based on modern signal   detection theory, the research is carried out on the the detection of   deterministic signals and random signals which has achieved abundant results.   Meanwhile, by applying the artificial intelligence theory and technology, the   intelligence detection theory, methods and techniques for complex industrial   process, the soft measurement and networked intelligent detection technology,   the development of the measurement and control system as well as the   development of the virtual instruments.

(2) Theoretical and application   research in the field of intelligent information processing under the ground   of intelligent traffics.

(3) Research and application on   geographic information systems.

3

模式识别与机器视觉

Pattern   recognition and machine vision

1)基于目前智能信息处理与模式识别领域的最新研究成果,着重针对复杂场景中对象、目标的处理识别等进行研究,解决三维视觉、高维空间以及物联网环境中的目标表达和识别等问题。

2)基于生物视觉感知和认知机理针对复杂背景下的模式变化目标,提出了基于结构轮廓图的特征提取方法和基于敏感子空间的模式识别等方法,有效地提高了智能信息处理和模式识别技术的效率、可靠性和适用性,为其应用软件和模式识别智能系统的开发提供了技术基础支持。

(1) Based on the latest research   results on intelligent information processing and pattern recognition,   focusing on the identification of objects and targets in complex situations,   solving problems such as target expression and recognition in 3D vision, high   dimensional space and Internet of Things environment .

(2) Based on the biological   visual perception and cognitive mechanism, feature extraction methods in view   of structural contour map and pattern recognition methods based on sensitive   subspace for the model changing target in complex background, which   effectively improves efficiency, reliability and applicability of the   intelligent information processing and pattern recognition technology. This   provides technical support for the development of application software and   pattern recognition intelligent systems.

4

自主导航及智能控制

Autonomous Navigation and Intelligent   Control

1)先进导航与制导技术:该方向主要进行自主导航方案、方法与算法研究;

2)卫星导航与组合导航技术:该方向主要进行全球卫星定位技术应用及多传感器组合方法研究;

3)自主导航系统设计及仿真测试:该方向主要进行导航系统硬件和软件设计及其性能仿真测试。

(1) Advanced Navigation and   Guidance Technology: Mainly focuses on scheme, method and algorithm study   related to autonomous navigation.

(2) Satellite Navigation and   Combined Navigation Technology: Main research areas include the application   of GPS and GIS (Global Position System and Geographic Information System) and   the method study of multi-sensors integration.

(3) Design and Simulation Test   of Autonomous Navigation System: Mainly focus on the hardware and software   design of the navigation system and simulation test of its performance.

五、课程设置Course Setting

控制工程学科专业学位硕士研究生课程设置

Course Setting of Master Disciplines for Control Engineering

课程                类别

Course Type

课程

编号

Course NO

课程名称

Course Name

课堂

学时

Class

Hour

学分

Credit

开课

学期

Semester Classes

教学

方式

Teaching Method

考核

方式

Assessing Method

开课

单位

Class Department

备  注

Remarks

学            位            课

Degree

 Course

 

公共基础课Common Course

G000042

中国特色社会主义理论与实践研究

Research Chinese characteristics

40

2

I

A

A

马克思主义学院

必修Obligatory Courses

G000052

综合英语(含16学时视听)

Comprehensive English(IContains   16 classes of audio-visual)

64

2

I

A

A

外国语学院

必修Obligatory Courses

G000053

通用学术英语(II)

General Academic EnglishII

32

2

II

A

A

外国语学院

 

必修Obligatory Courses

G000020

应用统计

Application of Statistics

32

2

I 

A

A

数理

学院

G000056

工程伦理

Engineering Ethics

32

1

I 

A

A

工程硕士必修

G000021

矩阵理论

Matrix Theory

32

2

I

A

A

数理

学院

专业基础课Specialized Course

M040053

线性系统理论

Linear System Theory

32

2

I

A

A

自动化

学院

M042001

数字信号处理

Signal Processing

32

2

A

A

自动化

学院

M041002

现代检测理论与应用

Modern Measuring Theory and Application

32

2

A

A

自动化

学院

选            修           课

Selective

Course

G000040 

自然辩证法概论

Natural Dialectics

18

1

I

A

A

马克思主义学院

必选

 G000054

体育

Physical Education

16

1

I

D

F

体育学院

必选

G000055

口语

Spoken Language

16

1

I

A

E

外国语学院

必选

M041023

先进控制技术

Advanced   Control Technology

32

2

A

A

自动化

学院

选修

Selective

Course

M042012

嵌入式系统原理与应用

Principle   and Application of Embedded System

32

2

A

A

自动化

学院

选修

Selective

Course e

M041017

无线传感器网络

Wireless Sensor Networks

32

2

II

E

F

自动化

学院

选修

Selective

Course

M041016

多传感器数据融合技术

Data Fusion Technology of Multi-sensors

32

2

II

A

B

自动化

学院

选修

Selective

Course

M041007

非线性控制系统

Nonlinear System

32

2

II

A

C

自动化

学院

选修

Selective

Course

M042014

模式识别

Pattern Recognition

32

2

I

A

A

自动化

学院

选修

Selective

Course

M040010

高级过程控制实践

Advanced Processing Control   Practice

1

1

II

E

C

自动化

学院

必选

Obligatory Course

M040002

 

开题报告

Thesis Proposal

1

F

自动化

学院

M040005

 

中期考核

Medium-term Assessment

1

-VI

F

自动化

学院

M042017

 

专业实践

Professional Practice

2

-VI

F

自动化

学院

M042016

 

学位论文

Dissertation

4

-VI

F

自动化

学院

补修            课程

Make-up Course

M041021

自动控制原理

Principles of Automatic Control

64

4

II

A

F

自动化学院

可根据导师要求补修,不计入学分

Patching in order to mentor 's requirementNot includedincluded in the credit

 

M041022

计算机网络

Computer Network

32

2

II

A

F

自动化学院

注 1.教学方式代码:A课堂讲授,B学术研讨,C专题报告,D实践,E其他;例:0.7A+0.3B

Notes1. Teaching   method codes: A—lecturing in class B—Academic discussion, C—subjective   report, D—practice, E—others; e.g.: 0.7A+0.3B

注2.考核方式代码:A闭卷笔试,B开卷笔试,C课程论文,D平时作业,E口试,F其他;例:0.8A+0.2D

Notes2 Examining   method codes: A—written exam with closed paper, B—written exam with opened   paper, C—Class paper, D—ordinarily assignment, E—oral test ,F—otherse.g.: 0.8A+0.2D

 

六、论文的要求Thesis Requirements

全日制专业硕士生申请学位时,要求在公开刊物发表与学位论文相关的学术论文一篇(以青岛科技大学为第一署名单位,申请人为第一作者或者其校内导师为第一作者申请人为第二作者)。

Before applying master degrees for Control Engineering Discipline, the student is required to publish at least one article related to his /her research topic in public journals (with Qingdao University of Science and Technology as the first unit name, the student as the first author or the second author following his/her supervisors) .

全日制专业硕士学位论文(设计)选题应直接来源于生产实际或者有明确的工程背景和应用价值,可以是一个较为完整的工程技术项目规划或研究,可以是工程设计项目或技术改造项目,可以是技术攻关研究专题,也可以是新工艺、新设备、新材料、新产品的研制与开发。论文选题应有一定的技术复杂性、先进性和工作量,能体现作者运用科学管理论、方法和技术手段解决工程实际的能力。

With a clear application value, the thesis (design) subject should be chosen directly from the actual production or have engineering background, which can be a complete engineering project planning or research, an engineering technological project or technological transformation projects. The subject can be key research project, and can also be development about new techniques, new equipment, new materials or new products. There should be a certain technically complex, advancement and workload in the thesis subject which can reflect the ability of the students who use scientific management theories, methods and techniques to solve practical engineering problems.

全日制专业硕士学位论文(设计)应在双导师指导下,由攻读全日制专业硕士专业学者本人独立完成,应有一定的理论深度和先进性,应有一定的技术难度和新见解,能表现出作者具备综合运用所学的基础理论和专业知识、解决工程实际问题的能力。学位论文(设计)完成后,一般由所在工程领域的领导小组安排有关教师并会同双导师对学位论文的学术真实性和撰写的规范性进行预审。预审通过并经双导师签字同意后方能进入论文的评阅和答辩。

The full-time professional master's degree thesis (designation) should be instructed by two supervisors. The degree thesis should be finished independently; there should be certain theoretical depth and advance, certain technical difficulty and new ideas in it. The candidate should show the ability to solve practical engineering by employing the basic theories and professional knowledge. After the student has finished the thesis (design), one engineering leader team in this specific field should arrange the related teachers and supervisors to pre-check the paper’s authenticity and specification. Only after passing the thesis pre-check, can the candidate have his / her thesis signed by the two supervisors and enter into the later procedures of the thesis reviewing and defense.

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