Curriculum
| Course Number | Summary | English |
|---|---|---|
| AE7302 | Construction Management Seminar | |
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This course aims to promote the research and development of construction technology and to utilize and manage it efficiently. This course aims to acquire the most basic and important method of dissertation writing in graduate school, to enhance presentation ability and to grasp research trends of developed countries in construction related field. |
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| AE7305 | Construction Management Information System | |
| This course deals with how to apply advanced ICT into construction engineering and management field. Current technological advancement and dynamic applications are investigated and new creative idea will be developed. Final outcome of this class is to prepare a research proposal based on individual interests. | ||
| AE7306 | Construction Planning & Management | |
| In the planning and design of civil construction work, this course covers about methods of the probability & statistics, process of the civil construction, the construction management, the schedule control and schedule design & material management. It also studies about the adaptation of construction management to use a computer and estimation to define the cost. | ||
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AE7307 |
Project Management Scheduling | |
| The purpose of this course is to acquire the process management techniques, which is the method of carrying out the process management by dividing the various processes necessary for the completion of the construction into the | ||
| AE7309 | Improvement of Construction Technology and Management | |
| This course analyzes the current status of various construction and management technologies in the field, and provides the knowledge that can be systematically promoted in terms of air, quality, cost, safety, management efficiency, and | ||
| AE7310 | Construction Project Managements | |
| This course introduces the various management elements required to achieve the goals of the construction project and lectures on the important management factors such as process management, cost management, resource | ||
| AE7312 | Legal Issues for Construction Management | |
| To acquire basic knowledge through the understanding and theoretical analysis of technology and construction method of construction work, and to cultivate the ability of planning the construction method according to the characteristics of the project and construction environment. | ||
| AE7313 | Advanced Construction Technology | |
| In addition to the global trend of informatization, the importance of computer application technology in the field of architecture is increasing day by day. In Europe, Japan, Europe, Japan, etc., we are already promoting architectural information technology for the 21st century high information society. I am actively doing it. This course aims to identify the latest technological trends through thematic seminars on the latest architectural information technology interests required as architectural professionals. | ||
| AE7314 | Construction Productivity Analysis | |
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In the current era of technological competition, the Korean construction industry is also interested in improving productivity based on technology. In response to these demands, this course aims to help students gain a conceptual understanding of productivity in the construction process (especially in the production phase), and to educate them on the management aspects of productivity enhancement measures. It helps to understand the concept of productivity in the construction process (especially the production stage) and looks at the way to increase the productivity in the management aspect. |
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| AE7316 | Construction Economics | |
| This course aims to understand the overall project progress process in the construction sector. In carrying out the construction project, the contractor will acquire knowledge about contract method, contract implementation, dispute and adjustment, completion of contract, and perform the presentation. | ||
| AE7318 | Construction Cost Management | |
| In this course, cost structure planning based on precise data for the successful execution of the construction industry and the cost flow so that the construction work can be completed within the predetermined range in comparison with the planned and actual costs in the course of carrying out the construction industry. And how to control and manage it. | ||
| AE7319 | Construction Risk Management | |
| The good Project Manager will constantly assess the risks and take action as needed. There are three possible outcomes for each risk: (1) take - 14 - action now to avoid the risk, to reduce its likelihood, or to reduce its impact, (2) make contingency plans so that the team is ready to deal with the impact and mitigate the risk should it occur, (3) agree that it is an acceptable business risk to take no action and hope that the risk does not occur. The process for managing risks is: (1) identify all realistic risks (2) analyse their probability and potential impact (3) decide whether action should be taken now to avoid or reduce the risk and to reduce the impact if it does occur (4) where appropriate, make plans now so that the organisation is prepared to deal with the risk should it occur (5) constantly monitor the situation to watch for risks occurring, new risks emerging, or changes in the assessment of existing risks. The students in this course learn construction project risks, risk management systems and tools, and they will be full of the knowledge about project risk management through the lecture, seminar and case study. | ||
| AE7320 | Decision Analysis | |
| An introduction to basic techniques for design and analysis of complex decision making problems. Topics include development of alternatives, uncertainty anaysis, evaluation and selection of alternatives. Various techniques such as decision tree analysis, influence diagram, AHP as well as DEA will be discussed. | ||
| AE7321 | Construction Management and Organization | |
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It emphasizes the necessity of construction management for the efficient execution of the construction business and lectures on construction and operation of construction organization, construction project execution system, feasibility analysis, value engineering, bidding and contract procedure based on construction management theory. |
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| AE7322 | Quality Management in Construction | |
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Confusion is arising in terms of quality management, quality assurance, quality management, and comprehensive quality management in companies performing quality activities. This lecture lectures on quality management and quality assurance as well as general concept of quality management, quality policy, quality plan and quality improvement. |
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| AE7325 | Computer Application in Architecture | |
| It is aimed at computer development which is required in all fields such as acquisition of computer application skill, architectural planning, design, environment, construction field etc. which is essential as an architectural expert. | ||
| AE7326 | Probability and Statics for Construction Management | |
| Construction industry is thought of as the one with higher risks and more uncertainties than any other industries. One of the reasons of this kind of nature of construction industry can be found in the construction process which is totally different from the mass production of the manufacturing industry. The problem solving in the construction industry is also empirical, heuristic, or stochastic rather than theoretical, algorithmic, or deterministic. This course provides basic concepts of applied probability and statistics in construction engineering and management and includes basic elements of probability theory, probability distributions, sampling, parameter estimating, hypothesis testing, and so on. Each topic is illustrated by a couple of examples of construction engineering and management problems | ||
| AE7328 | Global Construction Contracts | |
| The objective of this class is to understand the global project delivery methods and contract types. | ||
| AE7329 | Smart Construction Management Techniques | |
| The class aims to understand how to apply advanced ICT technologies to construction engineering and management disciplines to improve efficiency. | ||
| AE7332 | Design of Precast Concrete | |
| This course will introduce design of Precast Concrete System. For the design of Precast Concrete Members, we will learn the load criterion presented by each standard and specifications such as ACI 318 or PCI Design hand book. Also, the design process of the beam, column, hollow core slab, and wall panel will introduce considering the behavior due to flexure, shear, and torsion. This course will provide design procedures for precast member connection from design methods and examples. | ||
| AE7335 | Matrix Structural Analysis | |
| The purpose of this course is to present the stiffness method for matrix structural analysis. This course is also expected to enable a understanding of how software for structural analysis operate. Students will learn the difference between energy-based flexibility approaches and matrix-based stiffness approaches to structural analysis and determine deflections and forces in statically determinate and indeterminate structures. This course will introduce software which implement the matrix stiffness method. | ||
| AE7336 | Applied Elasticity | |
| The theory of elasticity should be well understood to establish the evolution of the stresses and strains for the accurate prediction of the elastic behavior of the structures. This course will introduce the theory of elasticity to help students understand how the structures builds up their strengths within the elastic limit. After this point, the students will also learn how the elastic theory are modified to accommodate inelastic behavior until the ultimate limit state. This course will demonstrate how finite elements are formulated with the elastic theory in elastic region. Students will also study to estimate the performance based strength of structures leading to the collapse level of the structures against external loads. | ||
| AE7501 | Numerical Analysis | |
| Numerical Analysis 3hours. Define the mathematical problems frequently issued in engineering solutions and study the numerical algorithms how to handle such problems. For the practice of the numerical algorithms computer implementation skills are instructed by using FORTRAN or C program languages. Prerequisites : Computer Program languages, Engineering Mathematics | ||
| AE7502 | Finite Element Analysis of Building Structures | |
| The main purpose of this course is to provide knowledge and information on the finite element method (FEM), which is widely applied to the analysis of structures in architectural and civil engineering as well as in mechanical and aerospace engineering. By taking this course, students can learn the principles of the FEM, on which most of commercial analysis packages are based. Prerequisites of this course include fundamental physics, mechanics of materials and structural analysis. The knowledge and experience on the computer programming is also helpful. | ||
| AE7503 | Advanced Structural Analysis I | |
| Understands the theory of analysis of statically indeterminate structure and learns application method. | ||
| AE7504 | Advanced Structural Analysis II | |
| The objective of this course is for structural engineering students to expand their knowledge of the behavior and design of reinforced concrete structures for various types of loading and systems. | ||
| AE7505 | 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. | ||
| AE7506 | Theory of Structural Stability | |
| This course will include the basic theories of structural stability such as the buckling theories, and the evaluation methods to determine the safety of structures. | ||
| AE7507 | Structural Dynamics | |
| The purpose of this course is to provide the student with an understanding of the response of structural systems to time-varying dynamic loads and displacements. The student will study the response of single degree of freedom(DOF) and multi DOF systems to harmonic and general loading conditions so that the theoretical bases of earthquake, blast, impact, etc. structural loading specifications are understood. Solution methods for free vibration and forced vibration of single and multi DOF systems will be studied. Respons spectrum analysis for support excitation (earthquake motions) will be studied. | ||
| AE7508 | Advanced Reinforced Concrete Design | |
| The objective of this course is for structural engineering students to expand their knowledge of the behavior and design of reinforced concrete structural components and systems for various types of loading, including loading beyond the elastic range of behavior. It is expected that the students have a general understanding of member behavior, member design, and the concrete building code (ACI 318) from their undergraduate reinforced concrete design course(s). | ||
| AE7509 | Advanced Structural Steel Design | |
| The intent of this lesson is to provide the background data necessary for the designers to understand the ultimate strength design method and to provide the necessary information to successfully design the steel structure according to the LRFD design. | ||
| AE7510 | Theory and Design in Composite Structure | |
| This class will consider the mechanical behavior of FRP composite material such as Carbon Fiber, Aramid fiber, and Glass fiber. And corresponding reinforcing and strengthening design using FRP will also be considered by analyzing and comparing the design codes of other countries and published papers. Flexural, shear srengthening of beam and slab, axially and eccentrically loadeed colums and seismic retrofit of columns using FRP material will be considered. | ||
| AE7511 | Prestressed Concrete | |
| The fundamentals of the analysis and design for prestressed concrete members are discussed in this lecture. The principles and concepts of the prestressed concrete including elastic and ultimate strength analysis under flexure, shear, and torsion are explained. | ||
| AE7512 | Soil and Foundation Engineering | |
| The purpose of this class is to provide students with an understanding of the nature and foundations of basic soil. In order to cultivate the practical problem solving ability and application ability, the lesson and the understanding of the behavior and the analysis of the shallow foundation and the deep foundation sanding structure will be taught. In addition, the course deals with the behavior and interpretation of foundations. | ||
| AE7513 | Structural Analysis and Design of High-Rise Buildings | |
| This lecture introduces the interpretation of high-rise building design over 20m and the design method according to the result. Although the height of a skyscraper can not be clearly defined, this lecture will focus on a building with a height of 30-40 stories or more. It will be focused on 50 story building which is actually designed and constructed in terms of architectural planning, structural design and construction for the realization of super high rise structure. | ||
| AE7521 | Structural Design 2 | |
| This course is a practical course for the design of high-rise buildings based on basic knowledge of structural analysis and design. There are several contents in this course. 1. Design standard 2. Load (fixed, load, wind, seismic load) 3. Structural system (moment flexible frame, shear wall, braced frame etc.) 4. Plastic design method 5. P-4 effect 6. High-Rise buildings | ||
| AE7526 | Earthquake-resistant design for steel buildings | |
| Generally, there are many kinds and types of structures. For example, dozens of high-rise office buildings and apartments. Large-scale commercial and assembly buildings, and the simplest are warehouses and water tank towers. Starting from a simple structure, the simplest form of studying structural dynamics, is a reasonable order. In the case of a simple structure, the total mass of the structure is regarded as one concentrated whole, and the dynamic analysis is very easy since the column can be idealized by a spring having only rigidity and negligible mass. Therefore, in this chapter, we try to deal with each dynamic analysis method through the case where simple structure receives various types of loads. | ||
| AE7527 | Earthquake-resistant design for reinforced concrete structures | |
| Generally, there are many kinds and types of structures. For example, there are dozens of high-rise office buildings, apartments, and large commercial and congress buildings. The simplest are warehouses and water tank towers. The simplest form of structural dynamics It is a reasonable order to do. In the case of a simple structure, the total mass of the structure is regarded as one concentrated whole, and the dynamic analysis becomes very easy since the column can be idealized by a spring having only rigidity and negligible mass. Therefore, in this chapter, we try to deal with each dynamic analysis method through the case where simple structure receives various types of loads. | ||
| AE7701 | Environmentally Sound Architecture | |
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In this course, Theories of building layout, interior planning, material selection and life cycle cost analysis are studied for the construction of natural and environmentally friendly architectural space. |
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| AE7703 | Seminar on Architectural Environment | |
| In this course, conduct seminars on architectural applications based on recently developed environmental technologies and research results. | ||
| AE7705 | Climate Change and Building Environment | |
| In this course, we will look at the scientific basis of climate change and look at changes in environmental performance of buildings due to climate change and the design of buildings in response to climate change. | ||
| AE7706 | Advanced Daylighting Design | |
| This graduate course to the advanced principles of daylighting science in architecture, provides qualitative and quantitative methods for the critical appraisal of the environmental performance of buildings. It discusses environmental issues in buildings at global, local and interior levels and explores their roles in terms of human well-being and light-efficient buildings. The environmental topics covered in this course include climate, sky conditions, physics of light, visual comfort, evaluation methods, etc. The course is delivered through weekly lectures and followed-up coursework. | ||
| AE7707 | Daylighting in Buildings | |
| In this course deals with the introduction of natural light into space using hardware such as mirror type, light pipe type, optical fiber type, lens and prism type. | ||
| AE7708 | Healthy Daylighting Systems | |
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In this course, we study not only improvement of start up but also mining system considering color temperature, wavelength, color rendering etc which affect human psychological and physiological health. |
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| AE7709 | Advanced Architectural Lighting | |
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Lighting design as it applies to the built environment is known as 'architectural lighting design'. This class considers aesthetic elements as well as practical considerations of quantity of light required, occupants of the structure, energy efficiency and cost. Lighting in residential and commercial use as it affects color, psychology, and use of space. Advanced color theories and their application to the Built environment is another concern of this class. More critical or optimized designs now routinely use mathematical modeling on a computer using software such as Radiance which can allow a student to quickly undertake complex calculations to review the benefit of a particular design. |
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| AE7714 | Thermal Environment in Architecture | |
| In this course, we will learn about the thermal properties of buildings, human physiological and psychological heat comfort, and human reactions in various architectural thermal environments. | ||
| AE7715 | Human Thermal Environments | |
| This course is an introductory graduate course in the building science focusing on human responses to hot, moderate, and cold environments. This course will introduce a comprehensive and integrated approach, which defines human thermal environments. The underlying principles, derived from the disciplines of physics, physiology, and psychology, will be taught, and will be used in the practical assessment of thermal environments. There are no pre-requisites for this course. However, it is assumed that students understand basic principles of thermal comfort, which has been taught in the undergraduate course of “Environmental Planning in Architecture”. | ||
| AE7717 | Advanced Air Conditioning | |
| In this course, the theories of the heat source system, the air conditioning system and the UFAC (Under Floor Air Conditioning) of the air conditioner are examined | ||
| AE7718 | Building Equipment Design | |
| In ths course, we will carry out a project to apply basic plans such as air conditioning, heating, and sanitation to actual design. | ||
| AE7719 | Sustainable Glazed-Wall Design | |
| Developing pioneering building envelopes, technologies for daylighting, saving energy, and sustainable use of resources on the building lie at the heart of responsible architecture. We all have long been aware of its responsibility to preserve our environment and spent decades developing ground-breaking, technical innovation and the best possible energy-efficient, multi-purpose systems, which meet the needs of modern architecture and make sensible use of natural resources. This class offers a representative overview of global trends in window and facade construction, focusing primarily on sustainability and comfort. This lecture also showcases a series of intelligent layers of facade concepts for reference projects that exemplify the corporate models of sustainability. | ||
| AE7725 | Light Pollution | |
| This course is designed to respond to the new legislation called “Light Pollution Protect Act” that will give significant impact of lighting designers, lamp manufacturers, national electricity consume, and building owners. As a result, there is a need to open the new light pollution course for students in particular, who can create good lighting with a low carbon footprint and reduced environmental impact without light pollution. This course provides students with the skills and deep knowledge base required to achieve it in outdoor lighting. | ||
| AE7726 | Research methdodlogy of architectural environmental | |
| In this course, we will learn various research methodologies such as measurement and monitoring methods, model test methods, and survey methods necessary to evaluate the performance of the architectural environment plan, and learn the whole process from the practice and case studies to the writing process. | ||
| AE7727 | Smart Lighting Techniques | |
| This course is designed to respond to new advanced technology and lighting law that will give significant impact of architect, building engineer and owners. This course provides students with the deep knowledge and skills to understand new advanced daylighting and outdoor lighting at night. | ||
| AE7728 | Methodology of Smart Lighting | |
| This course is designed to respond to new advanced technology and lighting law that will give significant impact of architect, building engineer and owners. This course provides students with the deep knowledge and skills to understand new advanced dayligting and outdoor lighting at night. | ||
| AE7729 | Advanced Finite Element Analysis | |
| The main purpose of this course is to provide knowledge and information on the advanced finite element method (FEM), which is widely applied to the analysis of structures in architectural and civil engineering as well as in mechanical and aerospace engineering. By taking this course, students can learn the principles of the FEM, on which most of commercial analysis packages are based. Prerequisites of this course include the mechanics of materials, structural analysis and basic FEM theories. The knowledge and experience on the computer programming is also helpful. | ||
| AE7731 | Earthquake engineering and design of base isolated structures | |
| This course will introduce earthquake fundamentals, including plate tectonics, fault types, seismic waves, and magnitude scales. Characterization of earthquake source, including magnitude range and forecasting future earthquakes will be also presented with ground motion prediction equations and site effects on ground motion. Students will learn how to select ground motion and modify response history analysis for earthquake design. In addition, seismic hazard mitigation via base isolation will be discussed in depth which reduces ground input motion practically for the buildings with short vibration periods. This course will provide various base isolation theory including principle of base isolation system, example of base-isolated structures, analytical model of base-isolated buildings with Abaqus, and evaluation of isolated building response to the input ground motions. | ||
| AE7732 | Nonlinear finite element analysis with concrete | |
| This course is designed to equip students with fundamental knowledge related to use of nonlinear finite element analysis based on concrete damaged plasticity and steel fracture in exploring seismic performance of concrete, steel and composite structures. Besides the above mentioned topic, basic skills to deal with FEM in the field of floor noise, soils and mechanical (with limited application), will be also introduced. Students who are interested in practical application of the FEM with interdisciplinary research themes are strongly suggested to take. Lectures begin with fundamentals of mechanics and overview of linear finite element based on weekly schedule shown below. All the parameters will be introduced for the implementation in Abaqus. The participations in the form of discussions and project solving according to students’ interest are one of critical parts of the course to reach a comprehensive understanding of the skills and capabilities that the nonlinear FEM offers. | ||
| AE7733 | Structural System Design I | |
| Lecture on structural analysis and design application of main members of concrete structures. Understand the properties of concrete materials and RC properties of each member that were not covered by the faculty, and study the design method according to the characteristics of each member. | ||
| AE7735 | Linear finite element analysis with shape function | |
| Learn various Shape functions used in FEM formuation. Check how to make Coordinate and five interpolation functions (Polynomial in generalized coordinates, npqr index method, Lagrange, Hermite, Serendipity in normalized coordinates) and how to apply them. At the same time, learn how to create Lagrange (0th, 1st order) and Hermite functions for 1D, 2D and 3D elements and learn how to apply them to normalized coordinates. Effective integration methods for stiffness matrices (newton-cotes and Gaussian Legrendes) are studied. Upon completing this course, students will understand how to write shape functions used in finite elements and will have the ability to develop top-level finite elements when necessary. | ||
| AE7736 | Performance based design | |
| This course will cover the plastic behavior that must be considered to accurately predict the performance of a performance based design. In the case of concrete structures, the plasticity behavior of materials such as the confinement of concrete during compression and the prediction of cracks during tensile are explained and the method of measuring energy dissipation is also lectured. In particular, the introduction of post-failure stress-fracture energy for predicting cracks will provide students with easy and physically lecture on plastic behavior of concrete. At the same time, we study three plastic models for understanding the behavior of concrete plasticity (concrete crack concrete model, brittle crack concrete model, and concrete damaged plasticity model). The theoretical background for predicting the performance of steel frame and steel - concrete composite structures will be described and the latest analysis techniques such as micro - interaction of composite materials will be lectured. Finally, we describe how to calculate the capacity of a structure by creating a capacity-demand-diagram based on inelastic spectra. | ||
| AE7738 | Advanced Buildings Equipment | |
| In this course, we will learn various equipment plan, design and evaluation and energy analysis method in facility. | ||
| AE7741 | Advanced Architectural Environmental Design | |
| In this course, we will study how to evaluate the environment by carrying out a design project around a specific topic. | ||
| AE7742 | Experimental Design in Building Science | |
| In this course, we will study on field measurement method and experiment methodology for light, heat, sound, air environment, etc. | ||
| AE7746 | Building Environmental Controls in a Climate Change | |
| In this course, we will learn about the theoretical knowledge about climate change problems discussed at the global environment level and how to plan adaptation and mitigation to cope with them in architectural environment. | ||
| AE7747 | Seminar on Eco-Healthy Buildings | |
| In this course, we will acquire the environment-friendly and health-friendly theories of building environment and conduct seminars by selecting individual topics based on concrete design examples. | ||
| AE7748 | Building Environmental Information and Modeling | |
| In this course, we will learn how to efficiently model large-scale building information data without redundancy. | ||
| AE7750 | Statistical Application in Architecture | |
| In this course, various statistical techniques necessary for collecting and analyzing data in the course of architectural research, and case studies on the use of statistical techniques using computer. | ||
| AE7752 | Building Control | |
| In this course deals with the basic theories of control of environmental systems in buildings and the algorithm and data utilization control techniques for model predictive control | ||
| 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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| AE7759 | Understanding Urban Climate | |
| This interdisciplinary course pivots around the influence of urbanization on local climate and weather patterns. In todays rapid urbanizing world, cities face increasingly complex challenges related to climate and extreme events. where more than 50% of global population live. Urban areas have notable impact on the interactions between the Earth's surface and the atmosphere. This impact is analyzed and quantified to understand how meteorological and climatic conditions on various scales are changed by the presence of urban landscapes. These changes include processes like the urban heat island effect, alterations in precipitation patterns, and more. The methods to assess and simulate these interactions between urban surfaces and the atmosphere and its contribution to global climate change are explored in this course. | ||
| AE7760 | Application and Practice of Artificial Intelligence Using Construction Data | |
| This course covers the entire process from data processing to extracting final insights through analysis. To achieve this, practical construction data is used to define a relevant topic for analysis, and students learn how to process the data, build analytical models, and write reports on the final analysis results. In this course, Python is utilized as a tool for data processing and machine learning | ||
| AE7761 | BIM Research for Smart Construction | |
| In the era of the 4th Industrial Revolution, this course analyzes the effects and values of Building Information Modeling (BIM), which is at the core of the digitization of the construction industry. It qualitatively and quantitatively examines and introduces the impact of cutting-edge technologies such as artificial intelligence, big data, digital twins, robots (or 3D printers), drones, AR/VR, and more on the construction industry. By researching and developing various BIM-related topics for smart construction, this course provides an opportunity for in-depth studies in the field of BIM while learning modeling techniques. | ||
| AE7762 | Advanced Studies in Architectural Engineering | |
| This course provides students with the opportunity to explore and understand various research topics in the area of architectural structural engineering, construction management and building environment. | ||
| 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. | ||
| AE7755 | Practice based project | |
| Discovery of carbon-neutral projects, economic, technical, and legal feasibility study of projects, on-site training for companies that declare carbon neutrality, invitation of carbon-neutral energy experts . Analyze the difficulties of the demanding companies and provide practical training for the company customized project reflecting the training requirements. | ||
| 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 | ||
| 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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