For more details on the courses, please refer to the Course Catalog
| Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
|---|---|---|---|---|---|---|---|---|---|
| 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. | |||||||||
| ECA5605 | Advanced Hydro-Engineering | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| A course on the application of computational models for hydro-engineering problems. A variety of softwares in hydro-engineering and their implementation will be discussed. Students may perform one comprehensive project using a software for free surface flow, contaminant dispersion, sediment transport, urban hydrology, stochastic hydrology, surface water quality, non-point source pollution, groundwater flow/pollution, or any for hydro-engineering problems. | |||||||||
| ECA5606 | Advanced Ocean 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. | |||||||||
| ECA5607 | Advanced Fluid Mechanics | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| Theory and application of principles in inviscid flows in two and three dimensions, irrotational flow theory, free surface flow, turbulence and surface gravity waves. The Reynolds analogy. Boundary-layer approximations. Confomal mapping and applications. | |||||||||
| 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. | |||||||||
| ECA5901 | Advanced Membrane Filtration Process | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| Necessity for application of membrane filtration on drinking water treatment, water reuse, wastewater treatment is provided. Materials, module characteristics, operation mode, and membrane cleaning methods are studied. Therefore, selection of optimum membrane for objective raw water, estimation of removal capacity and permeate flux, fouling, physical and chemical cleaning methods, design of advanced membrane filtration process are practiced. | |||||||||
| ECA5902 | Unit Processes in Drinking Water Treatment | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| It is a major purpose that optimum design and operation are obtained. So plans and designs for set up optimum treatment system to various raw waters are practiced. The basic principles of phisico-chemical unit processes applied for drinking water treatment will be provided with design practices. Designs and plans for not only existing processes such as flocculation and coagulation, sedimentation and clarification but also disinfection and membrane filtration are practiced. | |||||||||
| ECA5908 | Water Treatment Plant Design | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| It cultivates the ability that applies the unit operation of drinking water treatment process which develops with the technique various in actual plan. For this goal, we must know how to traditional drinking water treatment process design. In the base, we will study the drinking water treatment process of new technique. We will study about all process of the drinking water treatment and recalculation with reasonable data for many cases of the drinking water treatment plant by discussion. So we will improve our skill which is design of drinking water treatment process design | |||||||||
| ECA5937 | Advanced Geographic Information Systems | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| Mapping concepts and Geographic Data Management and Analysis: (a)Mapping concepts: colour and visual perception, map symbols, cartographic generalization and multiple representation, map projections and spatial reference systems, representation of the terrain (DEM/DTM), map design and interactive visualization; (b) Geographic Data Management and Analysis: database design theory, conceptual models (entity relationship model, UML), logical models (relational, object and object relational model), physical models, spatial index structures, algorithms for analysis of geographic data, introduction to XML and XML-based languages for GIS, geographic data integration and sharing. | |||||||||
| ECA5938 | Advanced Hydrographic Surveying | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| Intensive study of topics in hydrographic surveying. Topics are selected, according to student's interest, from the following list: satellite, shore-based, undersea, and self-contained positioning systems; tides and currents; underwater acoustics; relevant topics in oceanography, marine geology, and marine geophysics; the design of special hydrography surveys. A seminar format is used. | |||||||||
| ECA5941 | GNSS(Global Navigation Satellite Systems) Theory and Applications | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| Overview of space positioning and navigation systems; concepts and general description. GNSS signal description. Receiver and antenna characteristics and capabilities; signal measurements indoor; GNSS error sources and biases; atmospheric delays, signal reflection and countermeasures. Mathematical models for static point and relative positioning. Kinematic single point and differential post mission and real time positioning, navigation and location. Augmentation methods. Land, marine, airborne and indoor applications. Case studies. | |||||||||
| ECA5947 | Advanced Smart Concrete | 3 | 6 | Major | Master/Doctor | 1-8 | Civil, Architectural and Environmental System Engineering | Korean | Yes |
| Production process and properties of smart concrete with special functions such as self-healing and self-diagnostics, which are made by using polymers, bacteria, nano-materials, and capsules, etc. | |||||||||
| ECA5959 | Assessment Techniques of Coastal Zone Environmental Impact | 3 | 6 | Major | Master/Doctor | 1-4 | Civil, Architectural and Environmental System Engineering | - | No |
| Objectives, items, processes and means of environmental impact assessment are introduced. Matlab computer language and Matlab GUI(Graphic User Interface) are first learned to build the developing ability of the computer codes related with environmental impact assessment. As elementary items of coastal zone environmental impact assessment, 1) wind wave generation in open ocean and wave deformation in the nearshore, harbour tranquility, overtopping and so on, 2) wave-induced currents, storm surge and coastal inundation and diffusion and transport of suspended sediments and pollution substances, and 3) harbor sand deposition, beach erosion due to changes of sediment transport pattern are numerically coded and assessed for an understanding of environmental impact assessment. Additionally, commercial numerical tools are also exercised and compared each other. | |||||||||
| ECA5961 | Seminar on Construction Economy | 3 | 6 | Major | Master/Doctor | 1-8 | Civil, Architectural and Environmental System Engineering | - | No |
| Case histories on construction project financing are presented and discussed. Basic knowledge of global economy in construction industries is delivered. Characteristics of global construction industries and housing and hedging on construction purchase will be covered. | |||||||||