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School of Automation Engineering

青岛理工大学自动化专业介绍(张栋译)

1.培养目标

本专业培养知识、能力、素质各方面全面发展,掌握自动化领域的基本理论、基本知识和专业技能,并能在工业企业、科研院所等部门从事有关运动控制、过程控制、制造系统自动化、自动化仪表和设备、机器人控制、智能监控系统、智能交通、智能建筑、物联网等方面的工程设计、技术开发、系统运行管理与维护、企业管理与决策、科学研究和教学等工作的宽口径、高素质复合型的自动化工程科技人才。

2.培养要求

本专业学生主要学习自动化领域的基本理论和基本知识,接受自动化领域的基本方法及其解决实际工程问题等方面的基本训练,具有自动化工程设计与研究方面的基本能力。

3.主干学科

控制科学与工程

4.核心知识领域

电路及电子学基础、自动化基础理论、计算机技术基础(硬件、软件、网络等)、传感器与检测技术、电力电子技术、计算机控制技术、运动控制技术、过程控制技术等。

Introduction to Automation ofQingdao Technological University

1.Trainingtarget

Thisspecialitytrainthe high quality of automation engineering science and technology talentswhohave the comprehensive developmentin the aspects ofknowledge, ability and quality, as well asmaster the basic theories, basic knowledge in the field of automation and professional skills. Thetalents could be able to workin industrial enterprises, research institutes and other departments engaged in the motion control, process control automation, automation instrument and equipment, manufacturing system, robot control, intelligent monitoring system, intelligent transportation, intelligent buildings, the Internet of things engineering design, technology development, system operation management and maintenance, enterprise management and decision-making, scientific research and teaching work.

2.Training requirement

Thisspecialitystudents majorlearnsthebasic theory and basic knowledgeandaccept basic methods in the field of automation, as well as learn tosolvethepractical engineering problems, whowillhave the basic ability of automation engineering design and research.

3.main subject

Control Theory and Engineering

4.Core knowledge areas

Circuits and electronics, automation theory, computer technology (hardware, software, network, etc.), sensor and testing technology, power electronics technology, computer control technology, motion control, process control technology, etc.

1.。

Fundamental of AnalogElectronics

Schedules: the total class hours, 64;teaching hours, 48 ;experimental hours,16

Credits: 4

Teaching semester: the fourthsemester

Course description:This course introduces the analog signal amplification and processing. Bylearningthebasic composition, working principle and applicationof thetransistor devicesandbasic amplifying circuit,the students should masterthe basic electronic circuit analysis method and engineering estimation method.

2.。

PRINCIPLES OF AUTOMATIC CONTROL

Schedules: the total class hours,88;teaching hours,78 ;experimental hours,10.

Credits:5.5

Teaching semester: thefifthsemester

Course description:Principles of automatic control deals with introduction to design of feedback control systems, properties and advantages of feedback systems, which consist of introduction to Control Systems,Mathematic Models of Control Systems,Time-Domain Analysis ,Root Locus Method,Frequency Response Method,Compensation of Control Systems and nonlinear system.After learning this course ,the students will be able to obtain a basic understanding of feedback control theory,the ability to perform analysis and design of linear feedback control systems,using both time and frequency domain techniques on experience analyzing and designing control system.

3.

Computer Control Technology

Schedules: the total class hours,48;teaching hours,36;experimental hours,12

Credits:3

Teaching semester: thesixthsemester

Course description:The computer control technology is based on the technology of electronics,automatic control and computer application technology, which consist of introduction to computer control technology, input and output interface technology, the design of program, bus interface technology and digital PID algorithm.

4

Automatic Detection Technology & Instrumentation

Schedules: the total class hours,56;teaching hours,50;experimental hours,6.

Credits:3.5

Teaching semester: thefifthsemester

Course description:Automatic Detection Technology & Instrumentation is the major professional coursesof theautomation.Through this course,the students shouldmasterthedetection technologyof thetemperature, pressure, flow, level and other process parameters usedcommonly. Understandthe worksof thetypical instrumentation,learn for the projects from the detection system design, system maintenanceandtesting,learn abouttheup-to-datedevelopments inthisfield.

5。

Advanced Control Technology

Schedules: the total class hours,32;teaching hours,32;experimental hours,0.

Credits:2

Teaching semester: theseventhsemester

Course description:This course mainly deals with the basic principles of engineering process systems and practical skills. Its purpose is to enable the students of the automation to learn several types of advanced control methods which are widely usednowadays, and be able to apply them for a simple example of the above types of advanced control methods for the analysis and design based on the control theory and the application of technology learned in prior. Appling of MATLAB software and SIMULINK toolbox develop aided calculations, design and simulation.

6.

Electrical Control and PLCApplication

Schedules: the total class hours,48; teaching hours,40; experimental hours ,8.

Credits:3

Teaching semester: thethirdsemester

Coursedescription:

This course is the introduction to the principle and application ofPLC.

The course consists offour parts:

1.Introducingthe basic electrical control circuit, controlprinciple,layingthe foundation for learning PLC.

2.Taking S7-200 series programmable controllerofSiemensCompany as the target machine, learning content of PLC basic structureworking principle, systemconfiguration, instruction system, programming software STEP7-Micro/WIN4.0, the design method of the control system,layingthe foundation for further study.

3.Introducingthe PLC network communication technology.

4.Describes the system configuration and instruction system of S7-300/400PLC, in order to meet the requirements oflarge-scale PLC study. Introducingthe PLC network communication technology.

7.

The Principles and Applications of Microcomputer System

Schedules: the total class hours,72;teaching hours,52;experimental hours,20.

Credits:4.5

Teaching semester: thefifthsemester

Course description:

This course is the introduction to the principle and application ofMCS-51microcontroller unit.

The course consists of four parts:

1.The inner hardware structure and the working principle and application of the inner functional unit of MCS-51 microcontroller unit, including the clock circuit, the reset circuit, the inner interrupt system, the timer/counter and the serial COM port;

2.The MCS-51 assemble language instruction repertoire, the basic MCS-51 assemble language programming;

3.Extended interface circuit design, including memorizer, I/O extending, keyboard, display, micro-printer, BCD code switch, A/D & D/A interface circuit design and various driver programming for above different interface circuits;

4.The software and hardware design of the application system of the microcontroller unit, the development and debugging of the application system with emulator and the anti-jamming design of the application system.

8.。

Process control system

Schedules: the total class hours,56;teaching hours,46;experimental hours,10.

Credits:3.5

Teaching semester: thesixthsemester

Course description: Thiscourse mainlyintroduces the establishment of mathematical modelandthe analysis and design ofall kinds ofprocess control systems. Its purpose is to make the studentsmaster the basic methods of analysis and design of various processescontrolsystem throughthe learningof the course, totrainstudents' ability to analyze and solve problems,tolay a solid foundationfor going intoindustrial process automation.

9.

Control engineering design basis

Schedules: the total class hours,32;teaching hours,32;experimental hours,0.

Credits:2

Teaching semester: theseventhsemester

Course description: This course isthe follow-up coursesof theprocess controlsystem,itspurpose is tomake thestudentsto befamiliar with process control engineering design specifications andspecification on Content and Procedure of Detail Designforthe Ministry of chemical industryautomatic controldesign, require students to draw a variety of construction drawings and tables, towrite design specificationaccording tothe actual production process,so that they canhave an independent ability to complete the factoryautomatic control designworkingdrawings.

10.

Visual programming technology

Schedules: the total class hours,32;teaching hours,32;experimental hours,0.

Credits:2

Teaching semester: theseventhsemester

Course description: By learning this course, studentscancultivate theclearlybasic programming concepts,understand the basic syntaxofObject Pascal, master the use of commonly used components in Delphi, forming a system approach to learning visual language, so that they can meet the software development level requirements.

11.。

Modern control theory

Schedules: the total class hours,40;teaching hours,40;experimental hours,0.

Credits:2.5

Teaching semester: thesixthsemester

Course description:Modern control theoryas a kind of controltheory,is based on state space method, and itsbasic method is time domain method.Its research objects include linear systems and nonlinear systems, time-invariant and time-varying system, single variable systems and multi-variable system.The method and algorithmadoptedis more suitable for on a digital computer.

12.

Control system simulation

Schedules: the total class hours,32;teaching hours,32;experimental hours,0.

Credits:2

Teaching semester: theseventhsemester

Course description:According to the characteristics of the control system, focusing on how to use MATLAB tools to solve practical engineering problems.Including overview of the control system simulation, MATLAB and its use of preliminary, control system model and the transformation, the simulation analysis of the control system,as well ascontrol system simulation experiment.

13.

Computer communication and network

Schedules: the total class hours,32;teaching hours,32;experimental hours,0.

Credits:2

Teaching semester: theseventhsemester

Course description:This course is toset up tomeet the needs of the current network information age, which mainly focuses on the basic concept,hierarchical architectureand majorprotocol of computer networks.The main content ofthiscourseincludes:basic components and principles of computer networks; basic concept of the physical layer; error control and media access technology ofthedata link layer; routing technology of the network layer; flow control and congestion controlofthe transport layer; multiple application layer protocols. as well asthe latest developments in computer networksin recent years.

14.。Distributed Control System and Field bus

Schedules: the total class hours,32;teaching hours,2;experimental hours,0.

Credits:2

Teaching semester: theseventhsemester

Course description:This subject comprises of two parts: first on distributed control system (DCS) and the second, on fieldbus technologies. The fundamental knowledge of DCS, fieldbus technologies and their applications are covered.In the first part, the student is given a basic understanding of the main conception of DCS, ranging fromthedevelopmenthistory,general architecture,communicationnetworks, to thecontrolalgorithms of DCS.The second part aims to expose students to the basic principle of fieldbus technologies.Topics includeProfibus technology, Foundation Fieldbus technology, Lonwork system for building automation, Controller Area Network (CAN) system for automotive industry, Control Net andDevice Net.Practical examples on common industrial applications integrating withDCSandfield bustechnologies are then illustrated.

15.

Circuit principle

Schedules: the total class hours,88;teaching hours,68;experimental hours,20.

Credits:5.5

Teaching semester: thethirdsemester

Course description:Circuit principle is required for all electronic information engineering, based on analysis of electromagnetic phenomena in the circuit, the circuit of the basic law and the analysis method of the circuit as the main content. Whether high-voltage electrical specialty or weak current specialty, a lot of problems are involved in circuit theory knowledge, circuit theory as the research and provides an important theory and ways to solve these problems.

Power electronic technology

Schedules: the total class hours,40;teaching hours,32;experimental hours,8.

Credits:2.5

Teaching semester: thefifthsemester

Course description:Power electronic technology is a new and applied in the field of power electronic technology, is the use of power electronic devices (such as thyristor, decision, IGBT, etc.) for power transformation and control technologies. Power electronic technology is divided into power electronics manufacturing technology and variable flow technology (rectifier, inverter, chopper, inverter, a disguised form, etc.) two branches. Itnowhasbecome indispensable to modern electrical engineering and automation major a professional basic course, occupies an important position in cultivating the professional talents.

16.

Electrical and motion control system

Schedules: the total class hours,80;teaching hours,64;experimental hours,16.

Credits:5

Teaching semester: thesixthsemester

Course description:Themain contentsof this courseare: (1)the basic principle of electromechanical energy conversion. (2) dc, ac motor, the basic working principle, characteristics and modeling; (3) the principle of dc, ac motor drive and control system, analysis and design method.

17.

Electronic DesignAutomation

Schedules: the total class hours,32;teaching hours,20;experimental hours,12.

Credits:2

Teaching semester: thefifthsemester

Course description:Electronic design automation is a new technologywhichapplying computer technology to the design process and the formation, it has been widely used in electronic circuit design and simulation, integrated circuit layout design,andthe design of the printed circuit board (PCB)as well asprogrammable device programming.

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