| Courses |
Brief Introduction |
| CNC Machine and Lab |
1、Basic Components of an Numerical Control (NC) System 2、Applications of NC Machine 3、NC Machine Programming 4、Coordinate Measuring Equipment |
| Practical of Computerized Numerical Control Tool Machine |
1、Basic Components of an Numerical Control (NC) System 2、Applications of NC Machine 3、NC Machine Programming 4、Coordinate Measuring Equipment.
There are several topics in this course need to be introduced as follows. 1. Structure of Neural Networks. 2. Application of Neural Networks in Power System Load Forecasting. 3. Structure of Expert System. 4. Application of Expert System in Fault Location and Restoration of Distribution System. 5. Structure of Fuzzy System. 6. Application of Fuzzy System in Load Managentment. 7. Introduction of Grey Theorem and Evolutionary Programming Algorithm. |
| Engineering Analysis |
1.Ordinary differential equation 2.Laplace transformation 3.vector fields and matrices 4.Fourier series 5.boundary value problem 6.partial differential equation 7.complex analytic functions 8.Pertubation Theory 9.Calculus of Variations 10.Numerical methods. Point Estimation and Hypothesis Testing,Analysis of Variance,Linear Regression,Chi-square Test,Nonparametric Statistics,Sampling Methods |
| Engineering Statistics |
1.Introduction 2.Data Summary and Presentation 3.Probability 4.Random Variables & Probability Distributions 5.Hypothesis 6.Analysis of Variation |
| Engineering Statistics |
1.Introduction 2.Data Summary and Presentation 3.Probability 4.Random Variables & Probability Distributions 5.Hypothesis 6.Analysis of Variation |
| Engineering Statistics |
Point Estimation and Hypothesis Testing,Analysis of Variance,Linear Regression,Chi-square Test,Nonparametric Statistics,Sampling Methods |
| Engineering Optimal Design |
1. Introduction to design 2. Optimum design problem formulation 3. Optimum design concepts 4. Linear programming methods for optimum design 5. Numerical methods for unconstrained optimum design 6. Numerical methods for constrained optimum design 7. Interactive design optimization |
| Visual Basic Programming for Windows |
1.Introduction of visual basic programming. 2.Opening and running a visual basic program. 3.Working with controls. 4.Programming fundamental. 5.Variables and operators. 6.Decision structures. 7.Loops. 8.Forms and Print. 9.Graphic user’s interface |
| Visual Basic Programming for Windows |
1.Introduction of visual basic programming. 2.Opening and running a visual basic program. 3.Working with controls. 4.Programming fundamental. 5.Variables and operators. 6.Decision structures. 7.Loops. 8.Forms and Print. 9.Graphic user’s interface |
| Engineering Database |
1. Introduction 2. Database Management System 3. Relational Database Model 4. Relational Database System 5. Introduction for Access 6. Table and Query 7. Form and Report 8. Data Access Pages 9. Marco 10. VBA and Module |
| Engineering Graphics |
Introduction of graphics, applied geometric graphics, projective geometry, normal projection, auxiliary view, cross section method |
| Engineering Mathematics |
1.Introduction to the linear ODE 2.First order ODE 3.Second order ODE 4.Laplace transformation 5.Matrices and Determinants |
| Engineering Mathematics |
1.Introduction to the linear ODE 2.First order ODE 3.Second order ODE 4.Laplace transformation 5.Matrices and Determinants |
| Industrial Safety and Hygiene |
Introduction of Industrial Safety and Hygiene Industrial Accident Prevention and Analysis Safety and Hygiene training Jobs Safety Analysis Fire and Explosion Machine Safety Electric Safety Chemicals Hazardous and Communication Noise Control and Radiation Safety Prevention of Oxygen-decades Hazard First-aid Personals Protection Equipment Health Inspection Emergency Response Occupations Safety and Health Management Systems Introduction of Safety and Hygiene Regulations |
| Workshop Practice(1) |
An applied science to lead the students how to apply the machinery knowledge learning from the class to the workshop skills. By the practicing in the factory, students can obtain the working experience which enables them to have the abilities to perform well in their work in the future. |
| Factory Practice(4) |
(1).Introduction (2).Functions of jig & fixture (3).Design of jig (4).Design of fixture
(1). Overview of Human Machine Interface (2). Fundamental Usage of Objects and Functions (3). Usage of PLC Comm. Protocal (4). Design of User’s Function (5). Advanced Programming Practice (6). HMI Package Practice (7). Lookout Package Prcatice |
| Interface Control and Practice |
1.Environment and operation of LAB View. 2.Syntax and structure of lab view 3.Array 4.Subroutine and function 5.Input/Output 6.File system |
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| Distributed Control Practice |
1. Signal and Sensor Concepts 2. Signal Acquisition and Remote Control 3. Protocal Communication 4. Analog Signal Acquisition 5. Analog Output Control 6. Digital Input and Output Control 8. Distributed Control 9. Distributed System Monitoring and Control |
| Programmable Logic Controller |
1. Sequence Control 2. Overall PLC system 3. Contact Instruction 4. Output instruction 5. Block/Branch instruction 6. PLC timer fuction 7. PLC counter function 8. High speed counter function 9. Sequential Function Chart |
| Programmable logic controller |
1. Sequence Control 2. Overall PLC system 3. Contact Instruction 4. Output instruction 5. Block/Branch instruction 6. PLC timer fuction 7. PLC counter function 8. High speed counter function 9. Sequential Function Chart |
| Business Diagnosis |
A successful organization needs to periodically evaluate the organization with respect to competitiveness and growth potential, covering all aspects such as production, marketing, personnel, human resource development, performance motivation, etc. This course will introduce the fundamental knowledge of management and the scientific knowledge of management. Then systematically diagnoses and analyzes the different cases of company’s performance, as the practical training. |
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| Advanced Vehicles System |
1. Vehicle Industrial Smart 2. Advanced Security 3. Comfortable Convenience 4. Environmental Protection & Energy Conservation |
| Finite Element Method |
1. Introduction 2. Plane stress 3. Galerkin-weighted residual and variational approaches 4. Element concept 5. Physical Applications for 1-D BVP 6. 1-D BVP: Linear elements 7. 2-D BVP |
| Automatic Measurement |
1. Introduction to automation mechansim 2. Engineering design approach 3. Generation of design concept 4. Automation mechanism design 5. Examples |
| Mechanism Design of Automation |
1.Definition of mechanism and machine 2.Design steps of mechanism and machine design 3.Analysis and synthesis 4.Kinematic fundamentals 5.Review of kinematic analysis 6.Structural synthesis 7.Graphical linkage kinematic synthesis 8.Analytical linkage kinematic synthesis |
| Mechanism Design of Automation |
1.Definition of mechanism and machine 2.Design steps of mechanism and machine design 3.Analysis and synthesis 4.Kinematic fundamentals 5.Review of kinematic analysis 6.Structural synthesis 7.Graphical linkage kinematic synthesis 8.Analytical linkage kinematic synthesis |
| Mechanics of Materials |
1.Tension, Compression and Shear 2.Axial Loads 3.Torsion 4.Shear Forces and Bending Moments 5.Stresses in Beams 6.Analysis of Stress and Strain 7.Plane Stress 8.Deflection of Beams 9.Statically Indeterminate Beams 10.Columns |
| The Science and Engineering of Materials |
Introduction to Materials Atomic Structure Atomic and Ionic Arrangement Imperfections in The Atomic Arrangement Mechanical Testing and Properties Strain Hardening and Annealing Solidification Theorem and Application Ferrous Alloys |
| Material testing technology |
1. Non-destructive testing, NDT 2. Tension test 3. Shear test 4. Impact test 5. Hardness test 6.Surface-roughness measuring 7. Material wear test 8. Metallography micro-structure test 9.Electron microscope test 10.X-ray diffraction analysis |
| analysis of Pressing Dies |
1. Introduction of Press Dies 2. Introduction of Solid Works 3. Various Statements Introduction of Solid Worksof Ring Compression 4. Drawing of Press Dies 5. Design of Press Dies 6. CAE Analysis of Press Dies |
| Law and Life |
1.Introduction 2.Quality Control 3.Quality Inspection 4.Sampling Inspection 5.Control Chart 6.Total Quality Control |
| Fluid Machinery |
1.Definition of Fluid Machinery 2.pump 3.compressor 4.Turbine 5.similarity rules 6.Efficiency Analysis 7.Performance curves |
| English for Science and Technology |
1. The Phrases of Participle 2. The Phrases of Verbal Noun 3.The Phrases of Verbal Infinitive 4.The Phrases of Preposition 5. The phrases of Adjective 6. Complementary Words 7. The Attached component of clauses 8. The representative Noun 9. The Usage of It 10. The Usage of Which 11. Omitting The Clause of The Restricted Adjective Clause in The Relevant Words 12. The Usage of That 13. The Usage of What 14. Conjunctive 15. Reverse Clauses and their orders 16. Omission |
| English in Science and Technology |
This course introduces several topics of English in Science and Technology that are usually encountered in normal life. The contents include Application of Liquid Crystals, Artifical Intelligence, Banner Ads, Domino’s Store Management, Jaw Crusher: Coarse Range, Leadscrew Linear Actuators and the transformer. Each paragraph contains practices in grammer, analysis of sentence type and translation. |
| Technology English |
1.Introduction 2.Word & Phrase 3.Clause & Sentence 4.The basic structure of a sentence 5.Reading 6.Reading |
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| Management of Technology |
1. Introduction to managemenrt of technology 2. R&D∼ Technology Forecasting 3. Innovation ∼IP management 4. Policy ∼ government law 5. Competitiveness∼ managemenrt of technology 6. Industry∼ managemenrt of technology 7. Taiwan∼ managemenrt of technology |
| English |
Cultivate students to understand the technology English vocabulary, phases, and grammar, and to have abilities to read the technology English manuals, furthermore, stimulate the students to accept the English articles and improve their English reading and writing abilities. The main syllabus includes the following topics in one semester, 1. How to read a passage 2. Reading training |
| Vibration Analysis Application |
1.Introduction 2.Single d.o.f. system: free vibration 3.Work ethics and attitudes 4.Single d.o.f. system: forced vibration 5.Multi d.o.f. system 6.Modal Analysis 7.Vibration experitments |
| Indroduction to energy engineering and energy conservation |
1. the classification of signals 2. the classification of systems 3. the time response of signals and systems 4. fourier series 5. the power spectrum of periodic and non-periodic signals 6. fourier transform 7. the acquiration and construction of signals 8. Z-transform |
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| Signal and System |
In this course, linear system analysis methods are discussed. It consists of time domain and frequency domain analysis of both continuous-time and discrete-time systems. In addition to mathematic analysis, the block diagram, signal flow chart and state space are introduced. |
| Signal and System |
(1).digital controller (2).plant (3).driver (4).analog /digital converter (5).sensor/transducer (6).pid controller (7).pid controller (8).high-pass filter (9).low-pass filter (10).band-pass filter |
| Signals and systems |
1. the classification of signals 2. the classification of systems 3. the time response of signals and systems 4. fourier series 5. the power spectrum of periodic and non-periodic signals 6. fourier transform 7. the acquiration and construction of signals 8. Z-transform |
| The Science and Engineering of Materials |
Introduction to Materials Atomic Structure Atomic and Ionic Arrangement Imperfections in The Atomic Arrangement Mechanical Testing and Properties Strain Hardening and Annealing Solidification Theorem and Application Ferrous Alloys |
| Advanced Control Engineering |
1.Introduction 2.Mathematical Descriptions of Systems 3. Linear Algebra 4. State-Space Solutions and Realizations 5. Stability 6. Controllability and Observability 7. State Feedback and State Estimators |
| Foundation Electronics and Practice |
Lab 1 : Introduction to Meters and Voltage Measurement. Lab 2 : Resistance Measurement. Lab 3 : Ohm’s Law. Lab 4 : Series dc Circuits. Lab 5 : Parallel dc Circuits. Lab 6 : Series-Parallel dc Circuits. Lab 7 : Potentiometers and Rheostats. Lab 8 : Superposition Theorem. Lab 9 : Thevenin’s and Norton’s theorems |
| Project Discussion(一) |
1.Project Data Collection 2.Group Discussion 3.Project Research Plan Writing 4.Project Report Writing 5.Joining Academic Seminar |
| Graduate Seminars (2) |
1.Project Data Collection 2.Group Discussion 3.Project Research Plan Writing 4.Project Report Writing 5.Joining Academic Seminar |
| Project Discussion(二) |
1.Project Data Collection 2.Group Discussion 3.Project Research Plan Writing 4.Project Report Writing 5.Joining Academic Seminar |
| Project Discussion(3) |
1.Project Data Collection 2.Group Discussion 3.Project Research Plan Writing 4.Project Report Writing 5.Joining Academic Seminar |
| Project Discussion(5) |
1.Project Data Collection 2.Group Discussion 3.Project Research Plan Writing 4.Project Report Writing 5.Joining Academic Seminar |
| Project Discussion(6) |
1.Project Data Collection 2.Group Discussion 3.Project Research Plan Writing 4.Project Report Writing 5.Joining Academic Seminar" |
| Project Discussion(4) |
1.Project Data Collection 2.Group Discussion 3.Project Research Plan Writing 4.Project Report Writing 5.Joining Academic Seminar |
| Project Discussion(四) |
1.Project Data Collection 2.Group Discussion 3.Project Research Plan Writing 4.Project Report Writing 5.Joining Academic Seminar |
| Control Engineering |
1.Introduction Control System 2.Mathematical Foundation 3.Block Diagrams and Single-Flow Graphs. 4.Mathematical Modeling of Physical system 5.State-Variable Analysis 6.Stability of Linear Control System 7.Time-Domain Analysis of Control System 8.Root-Locus Technique 9.Frequency-Domain Analysis 10.Design of Control Systems 11.Design of Frequency-Domain Control System 12.Design of Discrete-Data Control System |
| Laboratory of Control Engineering |
1.MTALAB Tutorial 2.Simulink Toolbox 3.First Order Simulation 4.Stability, Steady State, Error, and Transient of First Order 5.Second Order Simulation 6.Stability, Steady State, Error, and Transient of First Order 7.Compensation Techniques 8.Data Acquisition by MATLAB Toolboxs 9.PID practices by Simulink 10.Analogue/Digital control for DC motor |
| Application of Pneumatics and hydraulics |
1.Introduction of Pneumatic and hydraulics 2.Pneumatic and hydraulics elements Instruction 3.Hydraulic and Pneumatic Application of Control loop 4.Application of PLC 5.Application of interface card 6.Application of Proportional Valve 7.Application of Servo Valve |
| Pneumatics and hydraulics |
1.Introduction of Pneumatic and hydraulics 2.Pneumatic and hydraulics elements Instruction 3.Hydraulic and Pneumatic Application of Control loop 4.Application of PLC 5.Application of interface card 6.Application of Proportional Valve 7.Application of Servo Valve |
| Modern Precision Measure Technolopy |
1. Introduction of Metrology 2. Concepts of Measurement 3. Measurenent and Tolerances 4. Statistics and Metrology 5. Vision Measuring Machine 6. Coordinate Measuring Machine 7. Contour Measuring Machine |
| Creative Mechanism |
1.Mechanical pairs 2.Graph theory 3.Mechanical structure 4.Mechanical design and application |
| Intelligent Controller |
1.This course introduce the various intelligent control application and design method. The some study cases are also arranged to the class, it covers the following main materials: (a)Intelligent control methods, including nureo-network control introduction, fuzzy control, and artificial intelligent control. (b)Intelligent measurement skills, including its definition, method, and application. (c)Case study, including auto test equipments, machine tools, auto storage systems, and air conditon in tower buildings. |
| Calculus |
1~1. Set. 1~2. Function. 2~1. The Limit of Function. 2~2. Continuity. 3~1. The Rate of Change. 3~2. The Derivative Function of Function. 3~3. The Four Rules of Derivative Function. 3~4. The Chain Rule. 4~1. Indefinity Integral and Formula of integral. 4~2. Integraltion by Substitution . 4~3. Integration by Part. |
| Introlduction of Sensors Devices |
This course introduces the fundamental knowledge of various sensor circuits and industrial applications. Teaching topics include: (1) Signals processing and classification (2) Sensors specifications and its transducer circuit. (3) Basic operational Amplifier circuits and functions (4) Labview programming applied for sensors signal graphic. (5) Data acquisition unit for A/D conversion (6) Photo-interrupter, Infrared sensor, photo-transistor, solar cell. (7) Ultrasonic transducers (8) Proximity switch (9) Thermal resistor (10) Load cell, pressure sensors. |
| The Theory and Application of Sensors |
1.The general structure of sensor systems 2.The application and introduction to resistors, capacitors, and diode rectifier and filtering elements 3.The application and introduction to transistors, operation amplifier (OPA) elements 4.The theory for various types of sensor modules in Lab 5.The operation and measurement for various types of sensors in Lab 6How to and where to apply the sensor modules |
| Theory and Application of Sensors |
1.The general structure of sensoring systems 2.The application and introduction to resistors, capacitors, and diode rectifier and filtering elements 3.The application and introduction to transistors, operation amplifier (OPA) elements 4.The theory for various types of sensors 5.The measurement and transformation methods for various types of sensors 6.How to and where to apply the sensors |
| Electronic Circuit Application |
1.Series Circuits。 2.Parallel Circuits。 3.Series-Parallel Circuit。 4.Methods of Analysis。 5.Network Theorems。 6.Introduction to Meters and Voltage Measurement。7.Superposition Theorem。 8.Thevenin’s and Norton’s theorems。 9.The Digital Multimeter Basic Measurements。 10.DC Power Supply basic Measurements。 11.Function Generator basic Measurements。 12.The Oscilloscope Familiarization and Basic Measurements。13.Testing the diode with an Multimeter。 14.Rectifier Filters。 15.Diode Clampers and Voltage Multipliers。 16.Transistor Testing and Gain Measurement。 |
| Electronics |
1.Semiconductor Materials and PN Junctions. 2.Diode and Applications. 3.Special Diodes. 4.Bipolar Junction Transistors. 5.Bipolar Transistors Biasing) 1.Small-Signal Bipoar Amplifiers. 2.Field-Effect Transistors and Biasing.。 3.Small-Signal FET Amplifiers. 4.Power Amplifiers. 5.Transistor AC Equivalent Circuits. |
| Electronics Lab |
1.Identifying Components of the Electrons 2.The Digital Multimeter Basic Measurements 3.DC Power Supply basic Measurements 4.Function Generator basic Measurements 5.The Oscilloscope Part 1 Familiarization and Basic Measurements 6.Basic Measurements: Period, Frequency, and Voltage Oscilloscope Part 2 7.Testing the diode with an Multimeter。 8.Rectifier Filters 9.Diode Clampers and Voltage Multipliers 10.Transistor Testing and Gain Measurement 11.Testing Bipolar Transistor Biasing 12.Small-Signal Bipolar Amplifiers 13.Field-Effect Transistors and Biasing |
| Electronics Laboratory |
1.Identifying Components of the Electrons 2.The Digital Multimeter Basic Measurements 3.DC Power Supply basic Measurements 4.Function Generator basic Measurements 5.The Oscilloscope Part 1 Familiarization and Basic Measurements 6.Basic Measurements: Period, Frequency, and Voltage Oscilloscope Part 2 7.Testing the diode with an Multimeter。 8.Rectifier Filters 9.Diode Clampers and Voltage Multipliers 10.Transistor Testing and Gain Measurement 11.Testing Bipolar Transistor Biasing 12.Small-Signal Bipolar Amplifiers 13.Field-Effect Transistors and Biasing |
| The Theory and Practice of Elecric Machines |
1. Motro starters 2. Fundamental control circuit 3. Control of DC motor 4. Control of stepping motor 5. Control of induction motor 6. Control of synchronous motor |
| Theory and Practice of Electric Machines |
1.Basics and fundamentals of electrical machines control 2.fundamental circuits for control of electrical machines 3.Practical control and theories of direct current machines (I) 4.Practical control and theories of direct current machines (II) 5.Practical control and theories of direct current machines (III) 6.Classifications and characteristics of alternative current siggle-phase motors 7.Practical control of reversible motor with electrical break 8.Practical control of reversible motors with adjustable governor 9.Practical control of induction motors with clutch breaker 10.Induction motors with inverter control 11.Induction motors with inverter control 12.Electronic control of Synchronous motors 13.Fundamentals of alternative current servo motors 14.Practical control of alternative current servo motors |
| Computer Engineering Application |
1.Computer Office Basuc Application:Exercise1 2.Computer Office Basuc Application:Exercise2 3.Computer Office Basuc Application:Exercise3 4.Computer Office Basuc Application:Exercise4 5.Computer Office Basuc Application:Exercise5 |
| Applications of Compter Software |
Course Introduction Introduction of MS Word The Formating of Documents Tables To Insert and Draw of Drawings To Set up Web Pages with MS Word Introduction of MS EXCEL Set up MS Excel Files Mid-term Examination Equations and Functions The Editing of Worksheets The Formating of Worksheets To Set Up Charts and Tables Introduction of MS Word The Editing of Text and Page Set Up To insert Objects To Print and Play the Presentations Final Examination |
| Computer Aided Manufacturing (CAM) |
1.Principle of Numerical Control 2.Manual NC Part Programming 3.Computer-aided Part Programming 4. Computerized Numerical Control/CNC﹐Direct Numerical Control /DNC 5. CAD/CAM Integration |
| CATIA |
1. AutoCAD Software Introduction 2. Line drawing 3. Geometrical Drawing 4. Sectional drawing 5. Isometric Drawing 6. Surface Symbol , Tolerance & Fit 7. Text Format 8.Working Drawing |
| Computer-Aided Mechanical Drawing |
1. Operate of Basic Drawing Command 2. Law of Drafting Mechanical Component 3. Criterion and Precision 4. Drawing of Cutaway View 5. Drawing of Assist View 6. Analysis of Computer-Aided Mechanical Drawing in Examined Subject |
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| Mechantronics Manufacturing |
1.Introduction 2.Computer-Aided Design 3.Product Design and Production Engineering 4.Computer-Aided Engineering 5.Enterprise Resource Planning 6.Conclusion |
| Mechantronics Manufacturing |
1.Introduction 2.Computer-Aided Design 3.Product Design and Production Engineering 4.Computer-Aided Engineering 5.Enterprise Resource Planning 6.Conclusion |
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| Computer Drawing |
1.Introduction to AutoCAD systems 2.Basic concepts of graphicsprogramming 3.Graphics to Edit Menu 4.2-D drawings 5.Modify Menu 6.Script and Block etc. |
| Computer Graphics |
This course aims for the enhancement of the engineering capabilities of our students in the following aspects: (1) Can generate basic engineering drawings via a computer aided drafting (CAD) system; (2) Can operate some famous graphics oriented and image processing commercial software. The outline includes: AutoCAD environment, Scaling and printing drawings, Multi-view and isometric drawings, and 3D modeling and rendering. |
| Computer Graphics |
1.Introduction to AutoCAD systems 2.Basic concepts of graphicsprogramming 3.Graphics to Edit Menu 4.2-D drawings 5.Modify Menu 6.Script and Block etc. |
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| Graphical Control |
1. Operate of Basic Drawing Command 2. Law of Drafting Mechanical Component 3. Criterion and Precision 4. Drawing of Cutaway View 5. Drawing of Assist View 6. Analysis of Computer-Aided Mechanical Drawing in Examined Subject |
| Graphics |
1.Establish the Concept of Orthographic Projection of the 3D Space 2.Realize the various instruments 3.Approaches to Geometry 4.Graphs of Various three-Dimensional View |
| Graphics |
1.Establish the Concept of Orthographic Projection of the 3D Space 2.Realize the various instruments 3.Approaches to Geometry 4.Graphs of Various three-Dimensional View |
| Design of Experiments |
This course introduce the basic concept and application of design and analysis of experiments, including the simple comparative experiments, factorial experiments, fractional factorial experiments, blocking method, response surface area method and robust parameter design. |
| Experiment Design and quality engineering |
Introduction;regression modeling;testing of regression;diagnosis of regression;application of regression;Phase Zero RSM;Phase One RSM;Phase Two RSM;Optimum design of Phase Two RSM: mathematical analyzing;Optimization of Phase Two RSM: mathematical programming;Robust design: Taguchi method;Robust design: two response curves method;percentage design |
| Precision Measurement |
Precision measurement instruments have been continuously improved according to the technology advancement. Although factories are equipped with precise and automatic machinery, the relative measurement instruments and correct measuring technologies are also necessary to obtain products with high precision.The contents of this course contain the theories and experiments of the following terms: basic terms of precision measurement; calibration and traceability; length measurement concept; basic length measuring instruments like vernier, micrometer and indicators; angle and taper measurement; shape measurement like straightness, flatness, profile and roundness; surface roughness, optical measurement instrument like laser interferometer, laser scanner, and laser Doppler displacement meter; coordinate measuring machine (CMM); digital measurement; image measurement. Finally, the nano-measuring technology and instruments are also introduced briefly.This course includes theory introduction and experiment operation. It aims to bring the knowledge of precision measurement and the ability of conducting experiments to the students. The advanced optical and nano measurement are another important issues needed to be understand. |
| Precision Measurement Practice |
Precision measurement instruments have been continuously improved according to the technology advancement. Although factories are equipped with precise and automatic machinery, the relative measurement instruments and correct measuring technologies are also necessary to obtain products with high precision.The contents of this course contain the theories and experiments of the following terms: basic terms of precision measurement; calibration and traceability; length measurement concept; basic length measuring instruments like vernier, micrometer and indicators; angle and taper measurement; shape measurement like straightness, flatness, profile and roundness; surface roughness, optical measurement instrument like laser interferometer, laser scanner, and laser Doppler displacement meter; coordinate measuring machine (CMM); digital measurement; image measurement. Finally, the nano-measuring technology and instruments are also introduced briefly.This course includes theory introduction and experiment operation. It aims to bring the knowledge of precision measurement and the ability of conducting experiments to the students. The advanced optical and nano measurement are another important issues needed to be understand. |
| Precision Manufacturing |
Introduction of precision engineering Methods of precision manufacturing Precision machining by cutting-tool Precision grinding Electrical discharge machining Powder metallurgy Special manufacturing process Modern manufacturing process |
| Network Supervisor Implementation |
1.Introduction to Remotely Network Monitoring 2.Introduction to serial port and application 3.Introduction to parallel port and application 4.Introduction to TCP/IP protocol and application 5.Software Tools and communication element 6.MMI Interface devices 7.Network Control Integration System via varying Internet modules 8.Laboratory work: experiments |
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| Network Monitoring Control Laboratory |
1.Introduction to Remotely Network Monitoring 2.Introduction to serial port and application 3.Introduction to parallel port and application 4.Introduction to TCP/IP protocol and application 5.Software Tools and communication element 6.MMI Interface devices 7.Network Control Integration System via varying Internet modules 8.Laboratory work: experiments |
| Network Monitoring Control Laboratory |
1.Introduction to Remotely Network Monitoring 2.Introduction to serial port and application 3.Introduction to parallel port and application 4.Introduction to TCP/IP protocol and application 5.Software Tools and communication element 6.MMI Interface devices 7.Network Control Integration System via varying Internet modules 8.Laboratory work: experiments |
| Network Monitoring Control Laboratory |
1.Introduction to Remotely Network Monitoring 2.Introduction to serial port and application 3.Introduction to parallel port and application 4.Introduction to TCP/IP protocol and application 5.Software Tools and communication element 6.MMI Interface devices 7.Network Control Integration System via varying Internet modules 8.Laboratory work: experiments |
| Digital Logic |
01 Binary System 02 Boolean Algebra & Logic Gates 03 Gate-Level Minimization 04 Combinational Logic 05 Synchronous Sequential Logic 06 Registers & Counters 07 Asynchronous Sequential Logic 08 Digital Integrated Circuits |
| Digital Logic Design and Practice |
1.NUMBERING SYSTEM 2.SEQUENTIAL LOGIC 3.BOOLEAN EQUATION AND DE MORGAN’S THEORY 4.FLIP-FLOP、REGISTER |
| The Basic Control of Fuzzy |
1.Introduction 2.The Basic Theory of Fuzzy 3.Fuzzy Relation 4.Fuzzy Logic 5.Fuzzy Control |
| Heat Flow Analysis |
Introduction,Theory of Conduction,Non-Fourier Conduction Equation,1-D Steady Conduction,Extended Surfaces,2-D Steady State Conduction, Integral Solution,Transient Conduction, Lumped-Capacitance Analysis,1-D Transient Conduction,Transient Conduction in Semi-Region,Melting & Solidification,Transient Conduction with Concentrated Sources & Sinks,Theory of Mass Diffusion,Mass Diffusion without Homogeneous Chemical Reactions,Steady Mass Diffusion,Transient Mass diffusion,Fundamentals of Convection Heat & Mass Transfer,Convection Transfer Equations, Similarities and Analogies,External Convection Heat Transfer: Scale Analysis, Similarity Solution, and Integral Solution. ,External Convection Mass Transfer: Similarity Solution.,Internal Convection Heat & Mass Transfer,Natural Convection Heat & Mass Transfer,Thermal Radiation, Processes,Blackbody Radiation,The View Factor,Diffuse-Gray Enclosure Analysis,Volumetric Radiation, Absorption & Emission,Boiling Heat Transfer,Condensation Heat Transfer |
| Heat Engines |
1.Basic construct of heat engine 2.Internal combustion engines 3.External combustion engines 4.Refrigeration system and air conditioning |
| Mechanical Vibrations |
1.Introduction 2.Single d.o.f. system: free vibration 3.Work ethics and attitudes 4.Single d.o.f. system: forced vibration 5.Multi d.o.f. system 6.Modal Analysis 7.Vibration experitments |
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| Design of Machine Elements |
1. Introduction 2. Fundamental Principles 3. Working Stress and Failure 4. Deflection and Stiffness 5. Engineering Materials 6. Design of Static Loading 7. Design for Cycle Loading 8. Design of Shafts 9. Screws and Fastener 10. Mechanical Spring 11. Belt, Clutches, Break, and Chain 12. Welded and Riveted 13. Spur Gear 14. Ball and Roller Bearings 15. Lubrication |
| Mechanical Drawing |
1、Connecting the fundamental Engineering graphics and the geometrical drawing 2、Technology to mechanical parts and assembly drawings 3、Emphasizes on mastering the intersections and development theorem 4、Steel Structures, Hydraulic and Fluid Systems and Related Mechanical Drawing |
| Mechanical Drawing |
1、Connecting the fundamental Engineering graphics and the geometrical drawing 2、Technology to mechanical parts and assembly drawings 3、Emphasizes on mastering the intersections and development theorem 4、Steel Structures, Hydraulic and Fluid Systems and Related Mechanical Drawing |
| Practice for Interface Wiring of Mechatronics |
Introduction to Interface of Mechatronics Practice for Motor's wiring Practice for Pneumatic Circuit Wiring Practice for Wiring of Sensor's Electrical Circuit Practice for Wiring of PLC Input and Output Direction Judgment and Setup Equipment I/O Interface Wiring , Control Program Automatic Fill, Titer Processes Equipment I/O Interface Wiring , Control Program Storage Facilities Equipment I/O Interface Wiring , Control Program Vibrated Driving and Quality Test Equipment I/O Interface Wiring , Control Program Color Judgment and Stack Equipment I/O Interface Wiring , Control Program |
| Optoelectromechanical Integrated Application |
1.mechanism design 2.signal processing 3.pattern recognition 4.monitoring 5.fault diagnosis 6.sensors 7.measurements 8.sensor fusion 9.microprocessor 10.artificial intelligence 11.motion control 12.precision actuators 13.information feedback control |
| Analysis of Mechatronic Advance Level Inspection |
Introduction to Interface of Mechatronics Practice for Motor's wiring Practice for Pneumatic Circuit Wiring Practice for Wiring of Sensor's Electrical Circuit Practice for Wiring of PLC Input and Output Direction Judgment and Setup Equipment I/O Interface Wiring , Control Program Automatic Fill, Titer Processes Equipment I/O Interface Wiring , Control Program Storage Facilities Equipment I/O Interface Wiring , Control Program Vibrated Driving and Quality Test Equipment I/O Interface Wiring , Control Program Color Judgment and Stack Equipment I/O Interface Wiring , Control Program |
| Integrated Mechatronics Lab. |
1.Mechatronics introduction 2.Motor actuator , hydraulic actuator , pneumatic actuator 3.Conveyor design and applications 4.Robot design and applications 5.Sensor applications 6.Programmable logic controller introduction 7.Automated detector control experiment 8.Conveyor control experiment 9.Automated warehouse control experiment 10.Servomechanism contro experiment 11.Robot control experiment 12.PC-Base control experiment |
| Mechatronics experiment |
1.Mechatronics introduction 2.Motor actuator , hydraulic actuator , pneumatic actuator 3.Conveyor design and applications 4.Robot design and applications 5.Sensor applications 6.Programmable logic controller introduction 7.Automated detector control experiment 8.Conveyor control experiment 9.Automated warehouse control experiment 10.Servomechanism contro experiment 11.Robot control experiment 12.PC-Base control experiment |
| Mechatronics Laboratory |
1. Mechatronics introduction 2. Motor actuator , hydraulic actuator , pneumatic actuator 3. Conveyor design and applications 4. Robot design and applications 5. Sensor applications 6. Programmable logic controller introduction 7. Automated detector control experiment 8. Conveyor control experiment 9. Automated warehouse control experiment |
| Mechatronics Laboratory |
1.Mechatronics introduction 2.Motor actuator , hydraulic actuator , pneumatic actuator 3.Conveyor design and applications 4.Robot design and applications 5.Sensor applications 6.Programmable logic controller introduction 7.Automated detector control experiment 8.Conveyor control experiment 9.Automated warehouse control experiment 10.Servomechanism contro experiment 11.Robot control experiment 12.PC-Base control experiment |
| Mechanisms |
1.Introduction 2.Kinematics Fundamentals 3.Position Analysis 4.Velocity Analysis 5.Acceleration Analysis 6.Cam 7.Gear Train |
| Mechanisms |
1.Introduction 2.Kinematics Fundamentals 3.Position Analysis 4.Velocity Analysis 5.Acceleration Analysis 6.Cam 7.Gear Train |
| Introduction to Robotics |
1.Introduction of Optoelectronic 2.Technology, Programming, and Application of Robot 3.Control system and element 4.Dynamic Analysis and Control of Robot 5.Economical Analysis of Robot 6.Development of Robot |
| Introduction to Robotics |
1. Principles of Robotics 2. Robotic Technology 3. Systems and Components of robots 4. Dynamic analysis of robots 5. End effector 6. Robotic sensors 7. Machine vision 8. Artificial intelligence 9. Economic analysis of robots |
| Mechine system design and practice |
1. Computer-aided mechanism design 2. Practice of machine part design (1) 3. Practice of machine part design (2) 4. Vibration analysis and absorption 5. Applications of mechatronic parts 6. Positioning technology of high speed machine 7. Practice of special project 8. Industry visitation |
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| Statics |
1. Introduction 2. Vector operation & Cartesian 3. Products of vectors 4. Forces & Equilibrium 5. 2 or 3_Dimensional Systems 6. The moment vectors & forces 7. Couples & Equivalent Systems 8. 2D Equilibrium Equations 9. 3D 2 & 3-force Members 10. Trusses & The Joint Method 11. Space Trusses & Frames 12. Centroids 13. Composites 14. Parallel-Axis Theorems 15. Distributed forces |
| Statics |
1. Introduction 2. Vector operation & Cartesian 3. Products of vectors 4. Forces & Equilibrium 5. 2 or 3_Dimensional Systems 6. The moment vectors & forces 7. Couples & Equivalent Systems 8. 2D Equilibrium Equations 9. 3D 2 & 3-force Members 10. Trusses & The Joint Method 11. Space Trusses & Frames 12. Centroids 13. Composites 14. Parallel-Axis Theorems 15. Distributed forces |
| Statics |
It included INTRODUCTION, UNITS, FORCE, PLANE FORCE, SHEAR FORCE, MOMENT, TORSION, SCREW MOMENT BALANCE, EULAR BEAM AND BUCKLI
The purpose of this? course is to give students an instruction for understanding the various categories of Chinese practical writings, usage, and development of students writing ability in this genre.? The course contents generally include letters, public letters, note writings, special occasion invitations, telegrams, business documents, contracts, regulations, conference minutes, Dui-Lien, memor |
| Writing for Public Documents |
The purpose of this? course is to give students an instruction for understanding the various categories of Chinese practical writings, usage, and development of students writing ability in this genre.? The course contents generally include letters, public letters, note writings, special occasion invitations, telegrams, business documents, contracts, regulations, conference minutes, Dui-Lien, memor |
| Introduction of Forging Forming Simulation |
1.Forming Simulation of Cylinder Compression 2. Forming Simulation of Plane Strain Compression 3. Forming Simulation of Ring Compression 4. Forming Simulation of Drawing 5. Forming Simulation of Extrusion 6. Forming Simulation of Multi-Stage Forging |
| The Worksite Ethic |
To understand why work ethic is so important in the information age workplace and why it will continue to be important in the future. Now as much as ever before it is important for workers to have a good work ethic. Without it, businesses and industries struggle as productivity falls short of what is needed. Employers especially dislike hiring people who would choose to prop up their feet rather than find something to do. Hasn't a good work ethic always been important, though? The answer is yes, but during a period of history we refer to as the industrial age, many jobs required a work ethic that was limited and somewhat different from the characteristics necessary in today's information age workplace. This elective provides a central resource for materials related to work ethic, affective work competencies, and employability skills for work force development. |
