For more details on the courses, please refer to the Course Catalog
| Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
|---|---|---|---|---|---|---|---|---|---|
| ECE7001 | Semiconductor Device Simulation and Practice | 3 | 6 | Major | Bachelor/Master/Doctor | Electrical and Computer Engineering | Korean | Yes | |
| The primary goal is to describe the operating principles and device fabrication technology in electrical and electronic engineering. Lecture deals with an advanced method of material property characterization and device design (SILVACO simulation). Atlas with Spices 2B, 2D Device Simulation. Blaze, 2D Hetero junction Bipolar transistor, and III-V compound Simulator, Laser, 2D Semiconductor Laser Simulator, Giga, 2D Lattice Heating Simulator with Heat Sink, Mixed Mode, 2D Mixed Circuit and Device Simulator, TFT, 2D Amorphous and Poly Silicon Simulator, Luminous, 2D Optoelectronic Simulator, Quantum, 2D Quantum Effects Simulator, Ferro, 2D Ferroelectric Material Simulator. | |||||||||
| EME4301 | Microscale Thermal-Fluid Engineering | 3 | 6 | Major | Bachelor/Master |
3-4
1-4 |
Mechanical Engineering | Korean | Yes |
| Micro thermal system design and manufacturing technologies are important for advanced mechanical engineering base technology and for micro machinery and electronics, optics, and biomedical engineering. Especially, this course focuses on the development of micro power devices, design and manufacturing technology based on the microscale heat fluid flow base technologies. | |||||||||
| EME4901 | Management for Engineers | 3 | 6 | Major | Bachelor/Master |
3-4
1-4 |
Mechanical Engineering | - | No |
| Designed for undergraduate and graduate students wanting to understand the interdisciplinary mechanisms between engineering and management. Topics like financial statements and costing, business plan, technology management, role of IT technology in manufacturing are considered. Case study method of instruction emphasizes participation in class discussion. A key component of this subject is a team project. | |||||||||
| EME4905 | Convergence Business Model Planning | 3 | 6 | Major | Bachelor/Master | 1-4 | Mechanical Engineering | Korean | Yes |
| This course amis to learn the methodologies for developing a new business model based on understandings on the needs of internet user group and network communities which are expanding the interconnections and creating new values. Students will study various technological trends such as IoT, cultural trends, big data, and methods for user study. This will be used to establish technology-converging business models and appropriate marketting strategies through multidisciplinary approach. | |||||||||
| EME4907 | Analysis and Design of Manufacturing System | 3 | 6 | Major | Bachelor/Master | Mechanical Engineering | - | No | |
| Emerging technologies provide new opportunity for developing a competitive manufacturing system. Understanding the interaction between components of a manufacturing system as well as capability to analyze the system performance is crucial in smart factory or industry 4.0. This course includes the topics as following: components of a manufacturing system and their inter-relation, design theory like axiomatic design, manufacturing strategies, techniques for analysing manufacturing system performance, and quality engineering. | |||||||||
| EME4908 | Processing and properties of thin films | 3 | 6 | Major | Bachelor/Master | Mechanical Engineering | - | No | |
| This course covers the fundamentals of the processing methods of thin films, such as photolithography, PVD, CVD, etching processes, etc. A variety of properties of thin films, such as mechanical, structural, electrical, thermal properties and their characterization methods are introduced. | |||||||||
| EME4909 | Particle and Aerosol Engineering | 3 | 6 | Major | Bachelor/Master | Mechanical Engineering | English | Yes | |
| Currently, particle and aerosol exert big impact on industry, environment, and society. This course covers physical and chemical properties of particle and aerosol and their transport based on the knowledge of thermal and fluid engineering. Application field such as semiconductor/display manufacturing technology, atmospheric particulates and bioaerosol instrumentation and control, and nanoparticle synthesis and application will also be covered. | |||||||||
| EME4910 | Automotive Heat Management and Air Quality Control Technology | 3 | 6 | Major | Bachelor/Master | Mechanical Engineering | - | No | |
| Automotive thermal management started with internal combustion engine. While burning fossil fuels, enormous amount of heat is generated and to control the temperature of engine at a proper level, thermal management system is essential. In addition, HVAC system has been implemented to maintain good air quality inside the automobile and this extended the scope of thermal management. Recently, electric, hydrogen electric, and hybrid cars have been adopted and thermal management technology is chaning rapidly. In this course, HVAC, refriegeration/cooling technology, heat pump, thermal comfort and particulate control will be discussed to understand the automotive heat management and air quality control. | |||||||||
| EME5066 | Independent Study on the Master Student in Mechanical EngineeringⅠ | 3 | 0 | Major | Master/Doctor | 1-4 | Mechanical Engineering | Korean | Yes |
| This course is for the graduate student for the master course in the department of mechanical engineering. The student performs the research on the topic of his own with his advisor. | |||||||||
| EME5067 | Independent Study for the Master Student in Mechanical EngineeringⅡ | 3 | 0 | Major | Master/Doctor | 1-4 | Mechanical Engineering | Korean | Yes |
| This course is for the graduate student for the master course in the department of mechanical engineering. The student performs the research on the topic of his own with his advisor. | |||||||||
| EME5145 | Advanced Engineering Mathematics | 3 | 6 | Major | Master/Doctor | 1-8 | Mechanical Engineering | - | No |
| The goal of this course is to provide a group of mathematical tools that are essential to solve various problems in general areas of mechanical engineering. These tools are to be applied to realistic problems through analytical methods and computational algorithms. In a framework of transformation and approximation, several familiar concepts are explained systematically for a deeper understanding. Students will learn how to model, how to solve, and how to interpret and evaluate the result, which are all about engineering mathematics. | |||||||||
| EME5168 | Advanced Structural Mechanics | 3 | 6 | Major | Master/Doctor | 1-4 | Mechanical Engineering | - | No |
| Structural mechanics deals with the stress and strain, which is occurred in inside of structure when the external load is applied to the structure. This lecture is based on structural mechanics, and contains advanced contents of the structural mechanics such as stress transformation in 2D & 3D stress state, magnitude and direction of principal stress in 2D &3D stress state, stress analysis using stress function, deformation and impact analysis using energy method, indeterminate problem which cannot be solved by static equilibrium conditions, structure strength analysis which is under the complex load, life evaluation of structure which is under the fatigue load. Also, ability to design of structure will be developed through solving the various examples about geometry of structure, material properties et al | |||||||||
| EME5170 | Structural Elasticity | 3 | 6 | Major | Master/Doctor | 1-4 | Mechanical Engineering | - | No |
| A study on elastic behaviors of machine-structures subjected to various types of load will be conducted based on two dimensional stress functions. Analytically exact solutions for both stress and displacement fields of the given mechanical structures will be mathematically derived and also physically interpreted. | |||||||||
| EME5172 | Advanced Dynamics | 3 | 6 | Major | Master/Doctor | 1-4 | Mechanical Engineering | English | Yes |
| The purpose and aim of this advanced dynamics course is to present fundamental theories to post graduate level students so that they attain a real comprehensive understandings about motions in 3D. An attempt will be made during the entire course to present real problem oriented material that emphasizes the ability to combine fundamental mathematics and theory of dynamics. Contents of the course may include rotational coordinates, system of particles, planar rigid body motions, and 3D rigid body dynamics. Introduction to Lagrangian and Hamiltonian mechanics will be also covered. | |||||||||
| EME5173 | System Control | 3 | 6 | Major | Master/Doctor | 1-4 | Mechanical Engineering | - | No |
| The course addresses dynamic systems, i.e., systems that evolve with time. Typically these systems have inputs and outputs; it is of interest to understand how the input affects the output. We will analyze the response of these systems to inputs and initial conditions. We will learn how to control systems that ensure desirable properties (e.g., stability, performance) of the interconnection with a given dynamic system. This course also covers state space analysis, optimal control theory, singular value decomposition, frequency response, stability and robustness of multi-input multi-output system. Linear control system design methodologies are studied through case studies based on the control theories. | |||||||||