For more details on the courses, please refer to the Course Catalog
| Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
|---|---|---|---|---|---|---|---|---|---|
| ECA5503 | Seminars in Advanced Building Simulation | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| building and its systems into a well-integrated whole. By understanding Thremal interaction of building systems' with the building envelope and the structure, the strategies for dynamic control of building systems can be developed and implemented. Topics include basic concept of control, control logic and algorithms, system types, and the configuration of building automation systems. | |||||||||
| ECA5504 | Engineering Design Optimization | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | Korean | Yes |
| The objective of this course is to explore state-of-the-art building technologies, so called, intelligent building systems. Building intelligence consists of different information systems, and these systems can vary greatly in terms of their capabilities, including the degree to which they are intergrated with each other. In this course, recent advancements in building technology promoting intelligence and automation will be reviewed through various case studies, and exploration of a new generation of building and building technologies will be discussed. | |||||||||
| ECA5505 | Physical Modeling in Building Performance Analysis | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | Korean | Yes |
| This course introduces basic concepts of building environmental technology and physical modeling techniques explored in a labortory setting. Several experimental projects dealing with one facet of building environmental technology such as thermal, lighting, solar energy, and etc. are conducted for specific purpose of building performance prediction and/or analysis. Basics to handle various test equipments including data acquisition system, experimental design, data collection, data analysis and interpretation will be the issues throughout the course. | |||||||||
| ECA5506 | Building Energy Analysis | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | Korean | Yes |
| This course introduces the fundamentals to analyze energy flows in buildings. The subject includes basics in thermodynamics, theories of various heat transfer modes, building heat loss/gain, load calculations, and energy analysis within buildings and building components. It also introduces algorithms for load/energy calculations for computer programming and modeling techniques for dynamic building energy simulation based on transient heat transfer calculations. | |||||||||
| ECA5507 | Building Performance Simulation | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| The focus of this course is the application of simulation techniques in building design. The course uses computers and various other simulation tools for design performance prediction and/or evaluation. The use of these simulation tools will help in the understanding of fundamental principles involved in assessing the built-environment and creating new applications for simulation techniques. | |||||||||
| ECA5508 | Optimal Control of Building Systems | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| In this course several buildings are studied with regard to the influence of environmental control systems and building services on their design. The course participants develop the building envelope, environmental control systems and building services for a given project. Basic calculations for sizing the systems and services are performed. | |||||||||
| ECA5601 | Special Topics in Coastal Engineering | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| Basic hydrodynamics of waves in deep and shallow water. Emphasizes physical interpretation of mathematical results and their engineering application. Linear wave theory, dispersion, superposition, spectral representation. Wave energy, energy transport, dissipation by bottom friction. Refraction, diffraction by breakwaters. Coastal circulation, sdiment transport, and pollution transport. | |||||||||
| ECA5602 | Mechanics of Water Waves | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| Brief review of linear wave theory with engineering applications; wave equation models, boundary conditions, ray tracing, and dispersion. Nonlinear wave theories and propagation, wind waves, wave spectra, wave interactions with marine structures, and harbour resonance. | |||||||||
| ECA5701 | Advanced Rock Engineering | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| Advanced theoretical and experimental aspects of rock mechanics with emphasis on application to rock engineering: Empirical and analytical methods for describing strength, deformability, and permeability of intact rock and rock masses, Fracture mechanics and mechanics of discontinua, Design and analysis of rock slopes and foundations on rock, Rock support design, Basic principles of blasting design | |||||||||
| ECA5702 | Theoretical Soil Mechanic | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| Basic theories in soil mechanics, Detailed study of soil with emphasis on engineering behavior of soil under various conditions: Field equations of linear elasticity, Solutions of boundary value problems, Introduction to finite element method, Flow in porous media(confined and unconfined seepage), One dimensional consolidation theory, Yielding and failure of soils, Plasticity theory and limit equilibrium analyses for bearing capacity and slope stability analyses, Theory of critical state. | |||||||||
| ECA5703 | Slope Stability | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| Detailed study of fundamentals of slope stability analysis with emphasis on practical applications. Mode of failure. Factor of safety concepts. Block analysis. Infinite slope analysis. Planar surface analysis. Circular surface analysis. Ordinary method of slices. Simplified Janbu method. Simplified Bishop method. Design charts. Seismic analysis (Pseudostatic method. Newmark's displacment method). Finite element analysis. Stabilization method. Instrumentation and monitoring. | |||||||||
| ECA5706 | Underground Excavation | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| Detailed study of the important aspects of planning, design, and construction of underground opening with emphasis on case histories and practical applications. Ground response to tunnel excavation. Fundamentals of tunnel design. Design and construction of soft ground and rock tunnels. Tunnel stability analysis. Fundamentals of NATM. Monitoring tunnel behavior. Ground control and tunnel reinforcement. Finite element analysis. Back analysis using monitoring data. Mechanized tunnelling. | |||||||||
| ECA5707 | Fundamentals of Soil Behavior | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| Detailed study of fundamentals soil behavior using soil mineralogy with emphasis on practicial applications. Soil mineralogy. Clay-Water-electrolyte system. Soil fabric and structure. Determination of soil Composition. Soil composition and engineering properties. Soil water potential. Interparticle forces. Effective stress concept. Soil structuer and engineering behavior. Strengyh measurements and stength behavior. Deformation behavior. Volume change behavior. Vovume change behavior. Conduction phenomena. | |||||||||
| ECA5801 | Geo-Mathematics | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | Korean | Yes |
| Geo-mathmatics is an advanced mathmatics which is specially necessary for a geodetic science. It deals with the followings : interpolation, extrapolation, concept of filtering, regression analysis, least square prediction, least square collocation and a number of transform technique (Fourier, Hartley and Winer transform, Kalman filtering, etc.). | |||||||||
| ECA5807 | Space/Satellite Geodesy | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | Korean | Yes |
| "Satellite geodesy is concerned as a ranging system from space and earth-fixed positiong of satellite to unknown position on land, sea, air, and space. This subject deals with the theory and the applications in relation to positioning such as : difinition of satellite geodesy, space and earth coordinate system, GPS surveying, data processing, network adjustment, field work. The goals of this topic are to improve the knowledge of basic theory of satellite position, principles of Very Long Base Line Interferometry(VLBI), Satellite Laser Ranging(SLR) and Global Positioning System(GPS), and to teach the observation method, precision and related characteristics. It also deals with the improvement of ability of practical work by exercise, data processing and practical application in geodetic control surveying. The other applications are : Car Navigation, Marine Navigation and Hydrographic Surveying with GPS and Echo Sound System, etc " | |||||||||