For more details on the courses, please refer to the Course Catalog
Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
---|---|---|---|---|---|---|---|---|---|
EME5703 | Non-linear Control | 3 | 6 | Major | Master/Doctor | 1-4 | Mechanical Engineering | - | No |
This cuorse is intended for study the concept involved in the guidance and navigation of arospace and automobil vehicles and why these concepts are introduced and how are they are related. This course is concerned with the analysis and synthesis of guidance and navigation systems. | |||||||||
EME5704 | Dynamic System Modeling and Analysis | 3 | 6 | Major | Master/Doctor | 1-4 | Mechanical Engineering | - | No |
Advanced modeling method for dynamic engineering systems are covered through energy field, junctions, rigid body mechanics, distributed parameter system, magnetic circuits and device, thermofluid systems. Also, various examples for physical dynamic systems are covered to cultivate capabilities in modeling and analysis. | |||||||||
EME5721 | Special topics in Robotics | 3 | 6 | Major | Master/Doctor | 1-4 | Mechanical Engineering | - | No |
Robotics is a true interdisciplinary topic that requires all kinds of engineering knowledge including mechanical, electrical, and computer science. It also covers a broad range of subjects such as sensor and actuators, dynamics and control, and artificial intelligence. This class introduces the current research trends in robotics so as to help students keep up the top tier research. The subjects of the class will vary depending on the current trends, but will include such topics as dynamics analysis using Lie group and algebra, sensor and actuator systems, advanced control theories for robotics, machine learning, computer vision, and artificial intelligence. | |||||||||
EME5928 | Hydrogen and New Energy Power System | 3 | 6 | Major | Master/Doctor | Mechanical Engineering | - | No | |
Power systems using hydrogen and new energy are energy conversion systems that can achieve high efficiency and ultra low emission. Hydrogen energy is advantageous for improving the performance in thermodynamic and chemical reactions compared to conventional petroleum fuels, but at the same time it is accompanied by an abnormal reaction, which is delaying practical use. In this course, the basic characteristics of a hydrogen combustion engine considered as one of the next generation power systems, backfire control, forced and self-ignition characteristics, simultaneous achievement method of high efficiency and low emission with high output, free piston linear generator engine capable of achieving more than 50% are discussed. It also covers the characteristics of hydrogen fuel cells and new energy power systems. | |||||||||
EME5929 | Intelligent Robotics | 3 | 6 | Major | Master/Doctor | Mechanical Engineering | English | Yes | |
Robotics deals with mathematical modeling, mechanics, control about the manipulation with a robot manipulator. We treat the description of orientation, coordinate transformation, forward kinematics, inverse kinematics, the relation between joint velocities and Cartesian velocities, dynamics, trajectory generation, position control, force control, and the issues of a manipulator design. | |||||||||
ENS5002 | Advanced Energy Engineering | 3 | 6 | Major | Master/Doctor | 1-4 | - | No | |
This course covers the novel techniques for storaging and conversion energy. In particular, emphasis is placed on developing of ability to work better together in an effective and realistic fashion to create constructive solutions to the problem of the energy/environmental interface. | |||||||||
ENS5003 | Basic Calculation in Energy Process | 3 | 6 | Major | Master/Doctor | 1-4 | - | No | |
This course discuss about the basic principle in calculating the energy and material balance for design and analysis of chemical process which is related with energy conbersion. | |||||||||
ENS5004 | Master Thesis Work I | 3 | 6 | Major | Master/Doctor | 1-4 | - | No | |
The purpose of the Master Thesis Work Ⅰ is to perform the basic research related with thesis work for the Energy System Engineering Interdisciplinary Program. | |||||||||
ENS5005 | Master Thesis Work II | 3 | 6 | Major | Master/Doctor | 1-4 | - | No | |
The purpose of the Master Thesis Work Ⅰ is to perform the applied research related with thesis work for the Energy System Engineering Interdisciplinary Program. | |||||||||
ENS5006 | Special Topics on New & Renewable Energy | 3 | 6 | Major | Master/Doctor | 1-4 | - | No | |
This lesson deals with photovoltaic : the direct conversion of light into electricity are reviewed in the chapter, together with the economics of PV installation. Attention is focus on the various applications of photovoltaic which are relevant at present and so can those that likely to be of increasing importance in the near future.This lesson discuss the performance and design of photovoltaic systems involving silicon solar cells. | |||||||||
ENS5006 | Special Topics on New & Renewable Energy | 3 | 6 | Major | Master/Doctor | 1-4 | Energy Systems Engineering | - | No |
This lesson deals with photovoltaic : the direct conversion of light into electricity are reviewed in the chapter, together with the economics of PV installation. Attention is focus on the various applications of photovoltaic which are relevant at present and so can those that likely to be of increasing importance in the near future.This lesson discuss the performance and design of photovoltaic systems involving silicon solar cells. | |||||||||
ERC5001 | Global Collaboration Research | 3 | 6 | Major | Master/Doctor | Engineering | Korean | Yes | |
This class aims to enhance global competence as a researcher who study innovative growth fields through overseas dispatch of graduate students. Student’s who are dispatched overseas and carrying out joint research in world university will learn - to establish global network for future research - to strive for the creation of new industries in the field of sustainable development and innovative growth of mankind - to grow into global innovative leader with the competence of ‘Value creation’, ‘Convergence’, ‘Innovation’, and ‘Collaboration’ through innovation in creative convergence experiences that which cross the intercultural, interdisciplinary and intergeneration. In this class, students are expected to focus on projects during the overseas dispatch period to improve the quality of their research. Each researcher will present final report after they complete dispatch study and will be given their credit based on the presentation. | |||||||||
ERP4001 | Creative Group Study | 3 | 6 | Major | Bachelor/Master | - | No | ||
This course cultivates and supports research partnerships between our undergraduates and faculty. It offers the chance to work on cutting edge research—whether you join established research projects or pursue your own ideas. Undergraduates participate in each phase of standard research activity: developing research plans, writing proposals, conducting research, analyzing data and presenting research results in oral and written form. Projects can last for an entire semester, and many continue for a year or more. SKKU students use their CGS(Creative Group Study) experiences to become familiar with the faculty, learn about potential majors, and investigate areas of interest. They gain practical skills and knowledge they eventually apply to careers after graduation or as graduate students. | |||||||||
ESM5043 | Tcchnology Valuation | 3 | 6 | Major | Master/Doctor | 1-4 | Industrial Engineering | - | No |
This course treats basic concepts and methods on the evaluation of technology value. The various valuation methods including Monte Carlo method, risk adjusted NPV method, Options pricing methods, strategy as a portfolio of real options are explained in this course. | |||||||||
ESM5044 | R&D Project Management | 3 | 6 | Major | Master/Doctor | 1-4 | Industrial Engineering | - | No |
This course deals with the new theories and methods on R&D project management which give students abilities to apply to business practices. Particularly, the course focuses on past future of R&D project management, project planning, project evaluation, project organization. |