Curriculum
| Course Number | Summary | English |
|---|---|---|
| CE774 | Project discovery and practice | |
| Discovery of carbon-neutral projects for each D-DEE sector and review of economic, technical, and legal feasibility of the project. Carbon neutral declaration company field training. Invitation of carbon-neutral energy experts. Analyzes the difficulties of the demanding companies and reflects the training requirements for the company-tailored project practical training | ||
| CE7011 | Environmental Microbiology | |
| Deals with nature and diversity of microorganisms; taxonomy, anatomy, physiology, biochemistry, ecology of microorganism; role of microbes in environmental degradation and pollution control; pathogenic organisms in water supplies. | ||
| CE7012 | Biological Wastewater Treatment | |
| This course will expose students to fundamentals of environmental biological processes and skills and application of biological, chemical and physical principles to the analysis and design of biological processes for the treatment of municipal and sludge. | ||
| CE7013 | Special Topics in Environmental Biotechnology | |
| This course will deal with recent advances in environmental biotechnology and ecological engineering and discuss select papers associated with applications of environmental genomics and bioinformatics into environmental engineering. | ||
| CE7014 | Discrete element simulations and lab tests | |
| This course is designed to learn discrete element analysis techniques for soil materials and lecture on related experimental methods. | ||
| CE7015 | Geotechnical Numerical Analysis | |
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| CE7016 | Multi-functional Smart Construction Material | |
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This course deals with multi-functional construction material (MFCM) to endow electrical and thermal function to traditional constructional material. Theory, fabrication, application, and numerical modeling of MFCM will be comprehensively studied in this course. |
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| CE7017 | Smart Earthquake Resistant Engineering | |
| This course deals with the design of dynamic equilibrium of structures. Response of a single degree of freedom system and multi-degree of freedom systems to dynamic excitation using ML and data analysis will be covered. | ||
| CE7018 | Smart Water Management | |
| This course deals with water resources big-data collection, analysis, and prediction theory, machine learning, and optimization algorithm for smart water management against water-related disasters. | ||
| CE7019 | Individual Study (Smart Maintenance) | |
| graduate students in the field of smart maintenance conduct independent research with their advisors. Dissertations in the field of smart maintenance on the research topics will be conducted individually. | ||
| CE702 | Statistical Hydrology | |
| Learn the basic principles of various statistical theory and models, and lecture on application to civil and water resources engineering. | ||
| CE7021 | Individual Study (Smart Disaster Metigation) | |
| graduate students in the field of smart disaster metigation conduct independent research with their advisors. Dissertations in the field of smart disaster metigation on the research topics will be conducted individually. | ||
| CE7022 | Individual Study (Smart Construction) | |
| graduate students in the field of smart construction conduct independent research with their advisors. Dissertations in the field of smart construction on the research topics will be conducted individually. | ||
| CE7023 | Advanced Environmental Reaction Engineering | |
| Characteristics of reactions, principles, reaction kinetics analysis, application of reaction characteristics, unit process design and reactor design in water and wastewater treatment processes. | ||
| CE7026 | Advanced Engineering Mathematics | |
| Special function, orthogonal function, vector space, partial differential equation, Green function. | ||
| CE703 | Advanced Geotechnical Engineering | |
| This course examines advanced concepts and theories of geotechnical engineering. Topics include, but not limited to, geotechnical site investigation, shallow/deep foundation, excavation, tunnel, seepage, slope stability, soil improvement, etc. | ||
| CE7031 | Special Topics in Highway Engineering | |
| A brief lecture on the selected topic of road engineering and a report on how to express it in a report. | ||
| CE7036 | Nonlinear Structure Analysis | |
| Nonlinear analysis algorithm, nonlinear material model, 1-dimensional and 2-dimensional nonlinear element. | ||
| CE7041 | Mechanics of Asphalt Materials | |
| The mechanical chracteristics of asphalt materials consisting of asphalt pavements are taught. | ||
| CE7048 | Structural analysis of pavement system | |
| This course deals with the general aspects of pavement engineering, including the characteristics of the materials used for pavement and the factors affecting other pavements, such as climate, environmental conditions and traffic conditions, and pavement structural analysis techniques to predict pavement behavior | ||
| CE7049 | Finite Element Methods | |
| Theory and fundamental concepts of the finite element method are studied. Computational methods to solve solid mechanics problems are also discussed. Basic knowledge required to use commercial software are to be established. | ||
| CE7050 | Theory of physical treatment process | |
| Lecture on physicochemical process in pollutant removal process. | ||
| CE707 | Soil and Ground Water Remedation | |
| Study of contaminated soil and groundwater to address water shortage and water pollution. | ||
| CE710 | Design and Analysis of Asphalt Pavement Systems | |
| The behavior and performance of asphalt pavement systems and the design and analysis methods are taught. | ||
| CE713 | Dsign and Analysis of Concrete Pavement Structures | |
| The behavior and performance of concrete pavement structures and the design and analysis methods are taught. | ||
| CE715 | Pavement management system | |
| Lecture on maintenance system of road and road facilities and specific network level | ||
| CE716 | Advanced Pavement Design | |
| Lecture on the evolution of packaging design techniques, commentary on design methods used in foreign countries, and design methods in Korea. | ||
| CE717 | Soil and Rock Dynamics | |
| This course covers Fundamentals of vibration, Dynamic behavior of earth materials and measurement techniques, Dynamic response of simple, lumped-mass system, Waves in elastic medium (bar, infinite medium, half-space). | ||
| CE719 | Deterministic Hydrology | |
| This course covers topics on rainfall, evaporation, infiltration, rainfall-runoff simulation, flood runoff, flood routing techniques, and frequency analysis using deterministic methods. | ||
| CE7201 | Reliability Theory in Civil Engineering | |
| Analysis of safety and reliability of structures, theory of load and resistance model development, application to system | ||
| CE7202 | Theory and Design of Water Treatment Plant | |
| Theories of coagulation, sedimentation and filtration used in the treatment of water, and design methods of water treatment facilities using these processes. | ||
| CE721 | Water Resources Systems Design | |
| This course aims to understand the characteristics of water resource systems, system analysis, and the application methods of water resource systems. It covers lectures on reservoir management systems, linear and nonlinear programming in water resource planning, and the application of dynamic programming. | ||
| CE723 | Dynamics | |
| Dynamics 3 hours. Fundamentals of motion and kinematics of engineering system design. The point and articulated mechanical system Dynamics are illustrated, and the inertia, force, position, velocity and acceleration are the main topics in this subject. | ||
| CE725 | Special Topics in Prestressed Concrete Structure | |
| Pre-Stressing theory is discussed, and the techniques applied to the design of P.C structures such as P.C beam, Slab, and Box girder are discussed. | ||
| CE7403 | Earthquake Resistant Design | |
| Basic concepts of earthquake, seismic analysis, seismic design of bridge structures, seismic design, etc. | ||
| CE7404 | Mechanics of Composite Material for Construction | |
| Lecture on manufacturing of composites applicable to construction field, material characteristics, lamination analysis, fracture criterion. | ||
| CE7406 | Advanced Mechanics of Materials | |
| The main purpose of this course is to provide the fundamental knowledge and information on continuum mechanics of solids. By taking this course, students can develop a better understanding on the mechanics of materials covered during undergraduate years and make a connection between the theoretical mechanics and numerical methodologies to solve boundary value problems such as finite element methods (FEM). The prerequisites for this course are the differential equations, vector calculus and mechanics of materials. | ||
| CE7410 | Graduate Seminar for Civil Engineering | |
| Graduate students of the Department of Social Infrastructure System Engineering will hold various seminars on advanced theories of civil engineering. We learn how to deal with the theory in the course of civil engineering construction through seminar class. | ||
| CE7514 | Rainfall-Runoff Modelling | |
| The course covers the rainfall-runoff processes, generation, and simulation, various surface runoff simulations, model selection and validation, as well as lectures on water resource data and modeling. | ||
| CE7515 | Geohazards & Geosensing | |
| This course examines both natural and man-made geohazards and GIS-based geo-sensing techniques for site characterization and risk management. | ||
| CE7516 | Geotechnical Earthquake Engineering | |
| This course examines advanced topics in geotechncial earthquake engineering, including: dynamic properties of soils; earthquake-induced ground response; soil liquefaction; ground deformations; etc. | ||
| CE7517 | Transportation Geotechnics | |
| This course examines geotechnical aspects of transportation infrastructure, including: flexible pavement design, transportation geomaterials, laboratory and field tests, nondestructive evaluation, etc. | ||
| CE7518 | Railway Track Systems | |
| The materials, behaviors, and applications of the railway track systems are taught. | ||
| CE760 | Soil Behavior | |
| Understanding the behavior of soils according to various physical, chemical, and mechanical conditions. | ||
| CE770 | Environmental Genomics | |
| This course will expose students to fundamentals of environmental microbiology, molecular microbiology, and bioinformatics and their applications in context of environmental engineering and science. The course will introduce students to 1) state-of-the-art computational microbiology techniques for analyzing molecular data (e.g., DNA, RNA, and protein) associated with environmental biotechnology and microbial ecology, 2) inferential statistics, and 3) molecular microbiological tools. Upon successful completion of this course, students will be able to apply the skills and knowledge they learn from this course to their own research projects related to environmental biological processes. | ||
| CE771 | Environmental biological system: design | |
| This course will expose students to applications of environmental microbiology and environmental bioengineering. Students will be to design a single or a treatment train of an environmental biological system such as biological water, wastewater, and waste treatment processes. | ||
| CE772 | Environmental biological system: operation and analysis | |
| This course will expose to operational and trouble shooting skill/knowledge of environmental biological systems. Students will be to collect, process, and analyze various types of physicochemical and biological data from the systems, with which they will learn predictive controls and decision makings for sustainable management of the systems. | ||
| CE775 | Net-zero smart city water circulation | |
| Net-zero smart city water management theory and practice education using big data, intelligence, and virtualization technology | ||
| CE776 | Climate change and the carbon/water cycle | |
| Physical understanding of climate change, its impact on the carbon and water cycle, and understanding of global carbon sources and sinks | ||
| CE777 | Nexus Water-Energy-Carbon Nexus | |
| Theory and evaluation model education for the evaluation of energy use and major carbon sources in the entire water management process | ||
| CE778 | Assessment of global carbon uptake through satellite observation | |
| Identification of Earth's carbon sinks using remote sensing and global environmental big data, evaluation of carbon absorption capacity by index, environmental changes due to climate change and changes in carbon sinks/absorption capacity | ||
| CE779 | Computational Mechanics using CAE | |
| Lectured on the simulation technique of mechanical behavior under dynamic/static loading of social infrastructure using CAE. | ||
| CE780 | Computer Methods of Structural Analysis with Matlab | |
| Advanced topics in matrix structural analysis and Introductory review of the method, isoparametric quadrilateral element and three-dimensional elements using Matlab. | ||
| CE781 | Seminar for bridge engineering | |
| Discussion of recent research trends and theories related to safety and performance evaluation methods of bridge structures. | ||
| CE8415 | Individual study(Ph.D course) | |
| Graduate students of Ph.D. in Social Infrastructure Systems Engineering conduct independent research with their advisors. In-depth research on the subject of Ph.D dissertation in Civil Engineering is conducted individually. | ||
| AE7721 | Simulation in Buildings | |
| This course is ana introductory graduate course in the practice of simulation applied to architecture environment studies. The course is focused in the simulation tools and development of environmental research. In this course involve the use of statistical tools. Students should be able to perform basic mathematic and statistical operations. | ||
| AE7756 | Climate Change Adaption in the Architectural and Urban Environments | |
| In order to overcome the climate change problem discussed at the global environment level, international regulations on carbon neutrality of buildings, innovation cases and theoretical knowledge, and how to plan adaptation and mitigation to respond to it in the built environment will be learned. | ||
| AE7757 | Climate Change Adaption in the Architectural and Urban Environments | |
| Understand and practice carbon reduction and neutral oriented design techniques based on BIM and DfMA in the planning and design phases, and learn/research methods that can be used in the construction, operation and maintenance phases based on this. | ||
| AE7758 | Climate Change Adaption in the Architectural and Urban Environments | |
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| CE7513 | Carbon Neutrality and Policy | |
| Institutional design for successful management of carbon neutrality such as licensing procedures for new and renewable energy sources, resident consent procedures, environmental impact assessment procedures, and resident briefing sessions | ||
| CE775 | Net-zero smart city water circulation | |
| Net-zero smart city water management theory and practice education using big data, intelligence, and virtualization technology | ||
| CE776 | Climate change and the carbon/water cycle | |
| Physical understanding of climate change, its impact on the carbon and water cycle, and understanding of global carbon sources and sinks | ||
| CE777 | Nexus Water-Energy-Carbon Nexus | |
| Theory and evaluation model education for the evaluation of energy use and major carbon sources in the entire water management process | ||
| CE778 | Assessment of global carbon uptake through satellite observation | |
| Identification of Earth's carbon sinks using remote sensing and global environmental big data, evaluation of carbon absorption capacity by index, environmental changes due to climate change and changes in carbon sinks/absorption capacity | ||
| ENV7103 | Carbon Neutral System Theory | |
| Causes and consequences of climate crisis, policies and agreements for overcoming the climate crisis, carbon neutral concept and reduction plans for each industry, overall theory on carbon emission calculation and energy efficiency | ||
| ENV7104 | Project discovery and practice | |
| Discovery of carbon-neutral projects for each D-DEE sector and review of economic, technical, and legal feasibility of the project. Carbon neutral declaration company field training. Invitation of carbon-neutral energy experts. Analyzes the difficulties of the demanding companies and reflects the training requirements for the company-tailored project practical training | ||
| ENV7105 | Climate Change Impact Assessment | |
| As climate change impact assessment has become an essential requirement for major development projects following the implementation of the Carbon Neutrality Act, review and case studies of domestic and foreign laws and systems for climate change impact assessment are studied, and theory and reality are simultaneously learned through special lectures by practitioners. | ||
| ENV7106 | Special discussion on low carbon energy technology | |
| In the context of energy conversion due to climate change and carbon neutrality, depending on the characteristics of various energy systems including renewable energy (hydrogen, solar/thermal, wind power, hydropower, biomass), thermal power and nuclear power, and each energy technology Introduction of specialized energy conversion principles and applications | ||
| ENV7107 | Whole process evaluation | |
| With the implementation of the carbon border adjustment mechanism, life cycle evaluation of import and export goods has become mandatory rather than optional. | ||
| ENV7108 | Environmental Energy Engineering | |
| Environmental and environmental engineering through introduction of basic principles and applied research cases of environmental engineering focusing on water/air/waste pollution treatment and prevention technology and energy engineering focusing on technology related to bio/waste energy, renewable energy, and hydrogen energy Understanding of Energy Convergence Technology | ||
| IE714 | Strategic Management of Technological | |
| Theories, cases and methodologies on energy technology innovation and R&D management from a strategic perspective. The goal of this course is to develop leading-edge skills and provide new information on managing technological innovation, that is new technology from the manager's perspective. | ||
| IE742 | Analysis of Smart-Technology Market | |
| Consumer preference theory and application to model and analyze smart energy technology market. Understanding the consumer preference analysis process and related main theories and analysis methodologies. The goal of this course is to review the fundamental theory and methodologies of consumer behavior. Particularly, this course covers the theoretical, empirical and applied methods of consumer decision-making process. | ||
| IE755 | Special Topics in Smart Energy | |
| Learn theories to reduce the supply, demand, carbon emission and related costs of energy used in production and manufacturing systems and learn related applications. In order to reduce energy consumption and relevant costs in manufacturing systems, students learn basic theory in manufacturing energy as well as applications. | ||
| IE762 | Sustainable Decision Making | |
| Introduction of basic theories and concepts of energy innovation cases in major countries, policies related to carbon neutral implementation, and analysis of sustainable decision-making. Various modeling methods and analysis techniques to formulate decision-making problems and solve them | ||
| IE763 | Energy Big Data Analysis | |
| The concept, technology, and use cases of big data used in various industrial fields including the energy field will be reviewed, and the role and required competency as a big data analyst | ||
| NE7611 | Special Topics on Nuclear Safety Regulation | |
| This course helps students to understand the philosophy, principles and background knowledge on nuclear and radiation safety regulation, and to learn practical knowledge on how the safety regulation is implemented in actual nuclear facilities. A series of theoretical lectures on the Global Nuclear Safety Regime based on the Convention on Nuclear Safety and Principles of Nuclear Safety Regulation along with the domestic legal bases of safety regulation such as the Nuclear Safety Act, the Act for Physical Protection and Radiological Emergency, and the Act on Protective Action Guidelines against Radiation in the Natural Environment are to be delivered. The inter-dependencies between engineering technology and administrative regulations are to be discussed together with the main lecturer-in-charge and invited experts in various sub-areas of the nuclear safety regulation. Furthermore, an opportunity of in-clsss on-the-job training on nuclear and radiation safety review will be provided through mentorship of respective experts. | ||
| NE7612 | Special Topics on Nuclear Security Regulation | |
| This course helps students to understand the philosophy and background knowledge on nuclear non-proliferation and security, and to experience the interface between engineering technology and administrative regulation. A series of theoretical lectures on the history and development of the International Convention for the Suppression of Acts of Nuclear Terrorism and Convention on the Physical Protection of Nuclear Material, and the domestic legal bases such as the Nuclear Safety Act, and the Act for Physical Protection and Radiological Emergency are to be delivered. An on-the-job training is provided to explore major issues in the fields of safeguards, export control, physical protection, cyber security, and safety-security interface and to actually conduct a review process on a specific issue through a mentor of experts. | ||
| PA7016 | Cases in Public Policy | |
| This course reviews the formation and evaluation process of public policy, and analyzes domestic and foreign cases. It lays emphasis on policy analysis and construction of theory models. | ||
| PA7059 | Conflict management theory | |
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