For more details on the courses, please refer to the Course Catalog
| Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
|---|---|---|---|---|---|---|---|---|---|
| ECE4247 | Power Electronics System Analysis | 3 | 6 | Major | Bachelor/Master | 1-4 | Electrical and Computer Engineering | - | No |
| Inverters and converters play an important role to operate fuel cell systems, hybrid electric vehicles, and etc. In this subject, design and control of various power conversion circuits according to the application conditions. Completing this subject, one can handle hardwares and softwares for power conversion circuits and can utilize the theory and technique for industry applications | |||||||||
| ECE4249 | Computer Vision | 3 | 6 | Major | Bachelor/Master | 1-4 | Electrical and Computer Engineering | Korean | Yes |
| This course focuses in the study of theories for image analysis. The first part consists of Image formulation model, early processing, boundary detection, region growing and segmentation, motion detection, merging and introduction of morphology. The second part, we cover basic concepts of statistical model, dis- criminant function, decision boundary and rules and neural network for visual pattern recognition. | |||||||||
| EEE3006 | Modern Optics | 3 | 3 | Major | Bachelor | 3-4 | Electronic and Electrical Engineering | Korean | Yes |
| The goal of this class is to understand the propagation of light in free space and in materials. The light propagation is first explained by the wave theory or Huygens's principle. Then the principles of reflection and refraction are explained. Next the light propagation is explained by the oscillating dipoles of atoms. Based on this theory the light scattering is explained. Next the operation of simple optical systems such as simple lens system, compound lens system, camera and human eyes is explained. | |||||||||
| EME2006 | Computer Aided Drawing | 1 | 2 | Major | Bachelor | 2-4 | English | Yes | |
| The main objective of the course is to give the basic knowledge of mechanical drawing. The lecture on how to convert the idea in mind into the drawing is delivered and practices with softwares and drawing tools are performed. | |||||||||
| EME2007 | Engineering Thermodynamics | 3 | 6 | Major | Bachelor | 2-4 | English,Korean | Yes | |
| The aim of the engineering thermodynamics is to estimate the amount and the quality of the stored, converted, and transported energy since the engineering thermodynamics is dealing with the fields related with energy and materials. The engineering thermodynamics deals with the first and second laws of thermodynamics based on the fundamental concepts of energy, entropy and properties in order to effectively utilize the energy. Since the engineering thermodynamics contains lots of conceptual facts compaining with the other mechanics related with the mechanical engineering, the continuous study and the solving of practical problems are required. | |||||||||
| EME2008 | Fluid Mechanics | 3 | 6 | Major | Bachelor | 2-4 | English,Korean | Yes | |
| Basic principles of fluid mechanics : basic concepts, properties of fluid, streamlines and pathlines, fluid statics, control volume approach, continuity equation, momentum equation, energy equation, Bernoulli's equation, dimensional analysis and similitude, pipe flows, and utility of the fundamental equations in describing various physical situations. | |||||||||
| EME2009 | Dynamics | 3 | 6 | Major | Bachelor | 2-4 | English | Yes | |
| Dynamics is an important branch in mechanical engineering, which studies the relations between force and motion. Basic dynamic theory and its applications are studied. Particle dynamics and rigid body dynamics will be studied with those kinematics for motion itself and kinematics for the relationship between motion and force. | |||||||||
| EME2012 | Solid Mechanics | 3 | 6 | Major | Bachelor | 2-4 | English,Korean | Yes | |
| Solid mechanics is a branch of applied mechanics that deals with the behavior of solid bodies subjected to various types of loading. The solid bodies considered in this course are axially loaded members, shafts in torsion, thin shells, beams, and columns, as well as structures that are assemblies of these components. The objective of this course is determination on stresses, strains, and displacements produced by the loads. | |||||||||
| EME2013 | Mechanical Engineering Materials | 3 | 6 | Major | Bachelor | 2-4 | English,Korean | Yes | |
| As the fundamental course in mechanical engineering, both theoretical and applied lectures are given to provide the basic knowledge necessary for the effective material selection and design of the machinery components and structures. Focused on metallic materials, the crystal structures, defects and strength, deformation, fracture, heat treatments, phase diagrams, strengthening mechanisms, the mechanical properties and characteristics of various steels, cast irons and nonferrous alloys will be discussed. | |||||||||
| EME2014 | Introduction to Machine Design | 3 | 6 | Major | Bachelor | 2-4 | - | No | |
| In this course, general principle of design methodology and design methods for fastening elements and shafts are introduced. In design methodology, various topics such as design process, design condierations, economics in design are deal with, and two basic elements of strength design(stress analysis and material properties) are briefly discussed. Various failure theories are introduced and design methods under static loadings are introduced. The S-N diagram is introduced and the design methods under fatigue loadings are introduced. | |||||||||
| EME2016 | Introduction to Electrical Engineering for Mechanical Engineers | 3 | 6 | Major | Bachelor | 2-3 | English,Korean | Yes | |
| The objective of this course is to provide the principles of electrical and electronic engineering to students in mechanical engineering major ranging from sophomore and junior. The topics cover analysis on analogue and digital circuits as well as analogue signal processing methods. The course will provide lectures in most of time in the provided semester, and students will do analogue and digital circuit designs and measuring signals for their projects. | |||||||||
| EME2017 | Mechanical Design and Manufacturing Laboratory | 3 | 6 | Major | Bachelor | 2-3 | - | No | |
| The purpose of this course is to foster comprehensive abilities such as experiments and analysis, tool utilization, and design through design and manufacturing practices. To this end, 3D-structure modeling using computer-aided design tools and 3D printing-based prototyping are carried out. In addition, Arduino programming practice for the realization of the mechatronics system is conducted, and finally, manufacturing practices such as machining, welding, and additive manufacturing, which are representative production processes, are carried out. Through this, it enhances the understanding of the overall design and manufacturing processes, such as mechanical structure modeling, 3D printing-based prototyping, the implementation of mechatronics systems, and the practice of manufacturing processes. | |||||||||
| EME2018 | MechanicalEngineeringProgramming | 3 | 6 | Major | Bachelor | 2-3 | - | No | |
| This course aims to develop the fundamental problem definition, analysis, and problem-solving skills using programming for mechanical engineers. To this end, students learn how to use MATLAB/Simulink language, an engineering software widely used in engineering and science fields. After dealing with basic commands, the course covers data processing methods, vector and matrix operations, function creation and calling, and visualization methods. Afterward, students will improve their ability to solve practical engineering problems by directly programming various examples of mathematical and engineering systems. | |||||||||
| EME3004 | Heat Transfer | 3 | 6 | Major | Bachelor | 2-4 | English,Korean | Yes | |
| This lecture presents an introductory treatment of engineering heat transfer. Background in physics, thermodynamics, fluid mechanics and ordinary differential equation is assumed. Emphasis is placed on a physical understanding of the process by which heat is transferred and on how to make appropriate assumptions and simplification in real situation to obtain an engineering answer. | |||||||||
| EME3006 | Applied Engineering Thermodynamics | 3 | 6 | Major | Bachelor | 2-4 | Korean | Yes | |
| The aim of the applied engineering thermodynamics is to give the capability to analyze the comples and practical thermodynamic system which applies the first and the second laws of the thermodynamics based on the energy and entropy studied in the engineering thermodynamics. The scope of the applied engineering thermodynamics contains the thermodynamics cycles including the vapor/air standard power cycles and vapor/air standard refrigeration cycles, the thermodynamicrelation including the Maxwell's equation, the basic rules of the mixtures and the psychrometric chart, the chemical reaction including the fundamental conceptof combustion, phase and chemical equilibrium etc. | |||||||||