List of Credits for Graduation

Academic Year 2018, Master Program, Department of Electro-Optical Engineering

YearSemesterRequired
Elective
Course IDCourse NameCreditsHoursLevelNote
1 1 6505091 Introduction to Opto-electronic Engineering(I) 3.0 3    
1 1 6506003 Engineering Seminar 1.0 2 1 / 4  
1 1 4105051 The Commercialization of Research Results 3.0 3    
1 1 6503007 Modern Optics 3.0 3    
1 1 6505004 Experiments for opto-electronic engineering(I) 1.0 3  
1 1 6505006 Modern Optics 3.0 3    
1 1 6505007 Electromagnetics in Optoelectronics 3.0 3    
1 1 6505010 Opto-electronic Methods in Precision Measurement 3.0 3    
1 1 6505011 Modern Manufacturing Technology 3.0 3    
1 1 6505012 Fabricating of Optical Films Coating 3.0 3    
1 1 6505013 Digital Image Processing 3.0 3    
1 1 6505016 Introduction to Fourier Optics 3.0 3   B
1 1 6505024 Fabrication of Potoelectronic Materials and Device 3.0 3    
1 1 6505025 Optoelectronics(Ⅰ) 3.0 3    
1 1 6505031 Integrated Optics 3.0 3    
1 1 6505032 Nonlinear Optics 3.0 3    
1 1 6505034 Fiber-Optic Communication 3.0 3   A
1 1 6505036 Optical Metrology 3.0 3    
1 1 6505037 Digital Image Processing 3.0 3    
1 1 6505041 Semiconductor Materials and Devices Characterizations 3.0 3    
1 1 6505042 Fiber-Optic Communication 3.0 3    
1 1 6505050 Design and application of optical coating 3.0 3    
1 1 6505051 Introduction to nanomaterials 3.0 3    
1 1 6505052 Optics of Liquid Crystal Displays 3.0 3   C
1 1 6505054 Epitaxy technology and measurement 3.0 3    
1 1 6505055 Optical MENS 3.0 3    
1 1 6505057 Information Optics 3.0 3    
1 1 6505059 Scanning Probe Microscopy 3.0 3    
1 1 6505060 Optical Image Processing 3.0 3    
1 1 6505061 Optical Signal Processing 3.0 3    
1 1 6505062 Project Research of Industry Trend Analysis in High Technolo 3.0 3    
1 1 6505063 Special topics on lasers applications 3.0 3    
1 1 6505065 Special topics on liquid crystal display(II) 3.0 3    
1 1 6505068 Introduction to Organic Semiconductors 3.0 3    
1 1 6505069 Solid-State Physics 3.0 3    
1 1 6505093 Electrionics of Liquid Crystal Display 3.0 3    
1 1 6505094 Technological Property Management System 3.0 3    
1 1 6505095 Introduction of Solar Cells Technology 3.0 3    
1 1 6505097 Optical properties of Semiconductors 3.0 3   D
1 1 6505098 Solar Energy Optics 3.0 3    
1 1 6505099 labview and applications 3.0 3    
1 1 6505114 Preliminary Flat-Panel Display 3.0 3    
1 1 6505115 Graduate On-Site Research 3.0 18    
1 1 6505120 LED drive technology 3.0 3    
1 1 6505121 Lighting industry trends 3.0 3    
1 1 6505122 Nonlinear fiber optics and application 3.0 3    
1 1 6505123 Photophysic Science and Technology II: Practical Technology 3.0 3    
1 1 6505124 Lighting Design with TracePro 3.0 3    
1 1 6505125 Lecture: Employment Enhancement 1.0 1    
1 1 6505126 In Search of Incredible 1.0 1    
1 1 6505127 Emerging Market Series: Getting to know Indonesian 2.0 2    
1 1 6505129 Lecture: Polishing Golden Employable Ability 1.0 1    
1 1 6505130 Introduction to Opto-electric Engineering Technology 2.0 2    
1 1 6505133 Branded Company's Integrated Product Development: Advantech IPD 3.0 3    
1 1 6505135 Fiber Optic Sensors 3.0 3    
1 1 6505137 Physics of Semiconductor Device with Practices 3.0 3    
1 1 6505138 Examination Guidelines for Patent and Utility Model (I) 2.0 2    
1 1 6505142 Patent Strategy and Patent Portfolio of High Technology Industry 3.0 3    
1 1 6505143 Modern photonic devices and application 3.0 3    
1 2 6505092 Introduction to Opto-electronic Engineering(II) 3.0 3    
1 2 6506003 Engineering Seminar 1.0 2 2 / 4  
1 2 6503532 Colorimetry 3.0 3    
1 2 6504525 Optical System Design 3.0 3    
1 2 6505005 Experiments for Opto-electronic Engineering(II) 1.0 3  
1 2 6505008 Introduction to Electronics 3.0 3    
1 2 6505014 Technology of Laser Material Processing 3.0 3    
1 2 6505015 Optolelectronic Materials and Devices 3.0 3    
1 2 6505017 Techniques and Applications of Films Analysis 3.0 3    
1 2 6505018 Optical Information Processing 3.0 3    
1 2 6505023 Photomagnetoelectric Properties of Materials 3.0 3    
1 2 6505026 Optoelectronics(Ⅱ) 3.0 3    
1 2 6505027 Opto-electronic methods on industrial detection 3.0 3    
1 2 6505028 Optical Communication 3.0 3   A
1 2 6505029 Application of Scanning Electronic Microscopy 3.0 3    
1 2 6505030 Optical Information Storage 3.0 3    
1 2 6505033 Applied Optics 3.0 3    
1 2 6505035 Practical Precision Instrumentaion 3.0 3    
1 2 6505038 Flat Panel Display 3.0 3   C
1 2 6505039 Diffractive Optical Elements and Applications 3.0 3    
1 2 6505040 Laser Engineering 3.0 3   B
1 2 6505043 Theory and Application of Optical Fiber Communications 3.0 3    
1 2 6505044 Dense wavelength division multiplexing 3.0 3    
1 2 6505045 Physics of Semiconductor Device 3.0 3    
1 2 6505046 Surface Analysis Techniques and Application 3.0 3    
1 2 6505047 Fiber system for CATV, fixed network 3.0 3    
1 2 6505048 Principle and designing of semiconductor lighting 3.0 3    
1 2 6505049 Properties and Fabrication Techniques of Semiconductor Thin 3.0 3   D
1 2 6505053 Lasers: principles and applications 3.0 3    
1 2 6505058 Electro-Optical Industry Trend Analysis 3.0 3    
1 2 6505064 Special topics on liquid crystal display(I) 3.0 3    
1 2 6505066 Introduction to Biomedical Optics 3.0 3    
1 2 6505067 Nano-Optics 3.0 3    
1 2 6505088 Physics of Organic Semiconductor Devices 3.0 3    
1 2 6505089 Lens Design 3.0 3    
1 2 6505090 Semiconductor Materials and Devices 3.0 3    
1 2 6505096 The obtainment and application of the property of high-tech patent 3.0 3    
1 2 6505116 Introduction of ultrafast optics 3.0 3    
1 2 6505117 LED Optics and Modules 3.0 3    
1 2 6505118 Nanostructured Optical Thin Films 3.0 3    
1 2 6505119 Photophysic Science and Technology 3.0 3    
1 2 6505128 Self-Marketing in the Workplace 1.0 1    
1 2 6505131 Dialux Lighting Design 3.0 3    
1 2 6505132 Ultrafast optics and application 3.0 3    
1 2 6505134 Theory and Application of Diffractive Optics with Lab practice 3.0 3    
1 2 6505136 Ergonomic lighting design 1.0 1    
1 2 6505139 Examination Guidelines for Patent and Utility Model (II) 2.0 2    
1 2 6505140 Design of 3D Models 3.0 3    
1 2 6505141 Display Panel with Lab practice 3.0 3    
1 2 6505145 Seminar on Patent Infringement Assessment and Patent Litigation 2.0 2    
2 1 6506001 Thesis 3.0 3 1 / 2  
2 1 6506003 Engineering Seminar 1.0 2 3 / 4  
2 2 6506001 Thesis 3.0 3 2 / 2  
2 2 6506003 Engineering Seminar 1.0 2 4 / 4  

Note :
1. Minimum credits for graduation: 32 credits
2. Professional Required: 16 credits (including 6 credits master's thesis, seminar 4 credits); Professional electives:16 credits.
3. Out of 32 credits, 9 credits can be approved from cross-department elective courses which the major graduate program does not provide and the advisor professor consents to.
4. Courses with mark “A”, “B”, “C”, or “D” mean foundational classes in 4 professional fields of electro-optical engineering. Students should take at least 2 courses across different fields.
5. Courses with mark “□” means the Professional Required. If students have studied the “Opto-electronic Experiments” course at undergraduate, they can apply waiver.
6. If the department chairman or the curriculum committee agrees that students take courses at cooperation schools by Joint Dual-degree Agreement, the courses can be adopted as graduation credits.
7. Students who join dual-degree program can claim 2 credits at most for seminar earned by additional Professional elective courses.
8. Foreign students with advisor’s permission can take English-Taught professional courses from the College of Electrical Engineering and Computer Science, or the College of Mechanical & Electrical Engineering. The credits count for major elective courses.
9. This course guide is effective for students admitted in 2018 fall.