[B00170]  강구조공학특론(1) ADVANCED STEEL STRUCTURES Ⅰ (3(3))

The purpose of this lecture is to understand mechanical properties of steel under tensile & compressive force, behavior characteristics of beams and columns, welded joints, and the structural behavior & provisions designed for practical applications.

[B00171]  강구조공학특론(2) ADVANCED OF STEEL STRUCTURES Ⅱ (3(3))

The purpose of this lecture is to cover thermodynamic behavior of the structure, local buckling design method, torsional members, and design and construction of steel composite structure.

[B00172]  강구조설계 DESIGN OF STEEL STRUCTURES (3(3))

This course focuses on the design of steel tension members, flexural members, compression members, beams, columns, regulations (domestic and overseas) according to the highway bridge specifications.

[B00699]  교량공학특론(1) ADVANCED BRIDGE ENGINEERING Ⅰ (3(3))

The aim of this lecture is to convey characteristics of bridge component materials, bridge types and formats, load calculation method, applicable to the design of the bridge (girder, slabs, trusses, and simple reinforced concrete, steel composite).

[B00769]  구조동역학 STRUCTURAL DYNAMICS (3(3))

토목공학과
Analysis of single and multi-degree-of-freedom systems. Mode-superposition method. Nonlinear dynamic analysis and numerical methods. Frequency-domain analysis. Applications in structures subjected to earthquake and impact forces. Indroduction to random vibrations.

[B00770]  구조동역학특론 ADVANCED STRUCTURAL DYNAMICS (3(3))

The purpose of this lecture is to provide dynamic analysis of structures, stiffness, mass calculations, modal damping matrix calculations, response spectrum analysis, dynamic analysis of structures due to earthquakes, time integration scheme, domain analysis, vibration characteristics, matrix operations, regression analysis, and numerical analysis.

[B00776]  구조물의최적설계 OPTIMUM DESIGN OF STRUCTURES (3(3))

This course focuses on the basic principles and concepts of structural design optimization, and the design of decision variables and objective function, Sensitivity analysis of the objective function according to the variables, the optimal design algorithm, and optimal design of materials according to structural types (beam, truss, arch, steel construction, reinforced, concrete structures, prestressed concrete structures, and steel concrete composite structure) will be covered.

[B00792]  구조해석특론 ADVANCED STRUCTURAL ANALYSIS (3(3))

토목공학과
Study of fundamentals of continuum mechanics including behavior and deformation of structures and matrix force and displacement methods for structural analysis.

건축학과2008-1
  Matrix analysis of structures is a vital subject to every structural analyst. It provides a comprehensive approach to the analysis of a wide variety of structural types, and therefore offers a major advantage over traditional methods which often differ for each type of structure.

[B01062]  기초공학특론(1) ADVANCED FOUNDATION ENGINEERING Ⅰ (3(3))

This course focuses on foundation soil and embankment materials, on-site investigation, indoor test various techniques, learning, estimate the strength and the laboratory test results of comparative analysis, the bearing capacity of the pile foundation buried structures and interpretations, groundwater fluctuations, and disturbances fat behavior analysis

[B01063]  기초공학특론(2) ADVANCED FOUNDATION ENGINEERING Ⅱ (3(3))

This course covers earthquakes, traffic load, tide fluctuations, groundwater table fluctuations, soil behavior, the dynamic interaction of soil structure and soil, soil-structure design, stable, review, and foundation soil behavior predictions

[B01088]  내진구조해석 SEISMIC ANALYSIS OF STRUCTURES (3(3))

The aim of this lecture is to convey to the physical phenomenon of the earthquake, the earthquake analysis, design loads for equivalent static analysis, the regional factor, importance factor, dynamic factor, basic vibration cycle, soil modulus, and the response modification coefficient. Also the course deals with the dynamic analysis of seismic design criteria, and pseudo-dynamics, and examples of earthquake analysis and planning.

[B02177]  상하수도계획특론 ADVANCED COURSE IN WATER SUPPLY AND SEWAGE PLANNING (3(3))

[B02496]  소성론 THEORY OF PLASTICITY (3(3))

This lecture covers inelasticity in the absence of the stress-strain relationship, load-displacement relationships, plasticity, strain-hardening, and strain reversal. In addition, research topics of yield criterion and Prandel-Reuss equation for calculating the plastic strain incremental theory, two-dimensional problems for nonlinear formulation, and material nonlinear analysis using the computer program will be discussed.

[B02563]  수문수자원설계론 HYDROLOGIC AND WATER RESOURCES DESIGN (3(3))

This course mainly introduces and implements GIS which is an important tool for modeling and helping to manage water resources development. This course will deal with the use of GIS in water resources planning and management such as stream network delineation, analysis of DEM data, analysis of rainfall data, analysis of soils data, HEC-HMS coupled to GIS, etc

[B02960]  암반역학(1) ROCK MECHANICS Ⅰ (3(3))

The aim of this lecture is to convey to classification of the rock mass, the basic theory of continuum mechanics, the physical properties of rocks and test methods, the mechanical properties of the rock and test methods, rock strength and fracture criterion, the deformation characteristics of the rock is related to the dynamical model for the interpretation of rock structures, and investigate how characteristics of rock discontinuities.

[B02961]  암반역학(2) ROCK MECHANICS Ⅱ (3(3))

This class covers joint development of the rock structures, survey and mapping, rock engineering classification of rock discontinuities using the stereographic projection technique, display and modeling techniques, the mechanical properties of discontinuity, stress-strain analysis theory, rock slope stability analysis, and countermeasure methods.

[B03337]  유한요소법의기초 FUNDAMENTALS OF FINITE ELEMENT METHOD (3(3))

Study of basic concepts and formulation methods of finite element analysis and shape functions, numerical integration techniques and derivation of bending elements.

[B03338]  유한요소법의응용 APPLICATIONS OF FINITE ELEMENT METHOD (3(3))

Study of plate, shell, axisymmetric elements and dynamic and nonlinear finite element analysis of structures.

[B04238]  철근콘크리트설계특론(1) ADVANCED REINFORCED CONCRETE DESIGN Ⅰ (3(3))

 This lecture introduces structural design concept and design methods, material nonlinear analysis and geometric nonlinear analysis, material properties of reinforced concrete, reinforced concrete structure analysis, basic design assumptions , moment-curvature analysis for flexural members, and column, bending strength of beam and column and simplified equation, flexural ductility index, design of short column, analysis and design of slender column, deflection analysis, crack analysis, and details of reinforcement.

[B04239]  철근콘크리트설계특론(2) ADVANCED REINFORCED CONCRETE DESIGN Ⅱ (3(3))

 This lecture introduces analysis of Inelastic behavior and analysis of reinforced concrete structures, creeps and drying shrinkage, creep coefficient on the specification of each country, creep analysis on non-cracked section and crack section, long term deflection analysis, shear strength analysis and shear design, bond characteristics of reinforcing bars and concrete, anchorage design, deep beam and cobble design, and detailed design of reinforcing bars by strut-tie model.

[B04336]  측지공학특론 ADVANCED GEOMETIC SURVEYING (3(3))

This course introduces the methods of digital representation of maps, coordinate development, digitizing, stereocompilation, scanning, remote sensing, hardware and software systems, file conversion, integration into GIS systems, attribute development.

[B04387]  콘크리트공학특론 ADVANCED CONCRETE ENGINEERING (3(3))

 Materials consists of concrete , aggregate, cement, compound in the properties of materials , the mechanism of strength revelation in concrete, the property of concrete is hardening or not one, the mixture design of concrete, creep and dry shrinkage etc.
The Mechanics properties of materials upon dependented time, compression strength, tension strength, fatigue strength and the property of compression stress- strain curve depend on changing strength are studies.

[B04398]  탄성안정론 THEORY OF ELASTIC STABILITY (3(3))

 This course of study includes various kinds of analysis method of stability problems ; buckling of columns, approximate methods of analysis such as the energy method, beam-columns, torsional buckling and buckling of plates. The buckling and postbuckling behavior are studied by the finite element method to evaluate stability problem of whole structures.

[B04405]  터널공학 TUNNEL ENGINEERING (3(3))

This is an introductory course focus on tunnel classification according to the soil conditions for tunnel design, geotechnical investigation techniques, step-by-step excavation, soil stress-displacement analysis, testing, geotechnical characteristics, and the joint design and construction methods (NATM technology).

[B04412]  토목지질학 ENGINEERING GEOLOGY (3(3))

The aim of this lecture is to provide understanding of the process of soil formation, classification of sediments and engineering characteristics, classification and properties of the rock, geological structure, a kind of cause, and generation of the mineral composition of groundwater movement, surveys, reservoir and dam lipid irradiation.

[B04508]  파괴역학 FRACTURE MECHANICS (3(3))

The purpose of the education is to provide the need for fracture mechanical competence to judge risk for failure and to compute stiffness reductions due to cracks. The aim is that the student should gain knowledge of linear and non-linear fracture mechanics and to serve as an industrial resource with the ability to analyze failures, suggest models for calculation and suggest structural improvement of engineering structures.

[B04989]  현장계측기법 FIELD INSTRUMENTATION (3(3))

This course is an introductory level of instrumentation techniques used in many areas of civil engineering. Fundamentals of measurement theories, interpretation, considerations, instrumentation, and application areas will be covered. In addition, both wired and wireless measurement techniques will be introduced to follow up fast changing technologies used in field instrumentation.

[B05322]  교량공학특론(2) ADVANCED BRIDGE ENGINEERING Ⅱ (3(3))

The course focuses on the complex type of bridge design (PS concrete bridges, long-span bridge, railway bridge, suspension bridge, and special bridges).

[B05480]  비선형구조해석 NONLINEAR STRUCTURAL ANALYSIS (3(3))

Geometric Nonlinearity : Lagrangian and Eulerian coordinate system, Green's strain tensor and Piola-Kirchhoff stress tensor , Almansi and Cauchy strain tensor Material Nonlinearity : Incremental theory of plasticity , Prandel-Reuss equation , strain hardening rule, associated plastic flow , isotropic hardening , yield criteria. Initial and tangential stiffness method. 
Incremential Linearized Scheme. Introduction to numerical method for nonlinear problem.

[B05954]  건설재료학특론 ADVANCED CONSTRUCTION MATERIALS (3(3))

This curriculum researches the property by classified of the construction materials, introduces repair-reinforcement methods for presenting the effective maintenance and management methods of superannuated structure by a brazing fire. 
In addition, analyze of the damaged structure by structural, material and environmental factor. 

[B06224]  수자원세미나 WATER RESOURCES SEMINAR (3(3))

This course evaluates various aspects of water resources including quality, flooding, supply and allocation, and the interaction of these issues with global warming. This course will also consider water resource planning and management from various scales including local, state, national and international.

[B06234]  쉘이론 THEORY OF PLASTICITY (3(3))

This lecture covers basic concepts of shell structure, the governing equations and boundary conditions, membrane action, bending action, symmetric load for the interpretation of the shell, conical shell, spherical shell, membrane theory, surface analysis, behavior of thin, thick, deep and shallow shells), and numerical analysis techniques.

[B06343]  이론토질역학(1) THEORETICAL SOIL MECHANICS Ⅰ (3(3))

Theory required to understand spoil behaviors. Basic theory on the plasticity, yield criteria and constitutive laws of soils based on elasto-plasticity. Advanced constitutive model and application to the actual behavior.

[B06344]  이론토질역학(2) THEORETICAL SOIL MECHANICS Ⅱ (3(3))

This course covers representative theory to describe the behavior of the geomaterials. Also, this class focuses on limit analysis and critical state theory, applications to the various analysis techniques for soft ground, and stability analysis of geotechnical problems.

[B06372]  전산토질역학 COMPUTATIONAL SOIL MECHANICS (3(3))

This course covers numerical geotechnical problems, use of the basic OA tools, numerical analysis techniques, finite difference/finite element analysis program, analysis of the site investigation data, slope stability analysis, pile foundation interpretation, and water seep and  consolidation problems.

[B06440]  지반개량특론 ADVANCED GROUND IMPROVEMENT (3(3))

This course covers ground characteristics for constructing structural buildings (static, dynamic, and flooding, improve, admixture, and new materials applicable) and investigation of the optimum soil conditions

[B06441]  지반공학특론 ADVANCED GEOTECHNICAL ENGINEERING (3(3))

 This course focuses on understanding of soil engineering properties, design (structures, shallow foundations, deep foundations, harbor structures, hypotheses) and research (construction methods).

[B06486]  평판이론 THEORY OF PLATES (3(3))

The aim of this lecture is to convey the fundamentals of the Kirchhoff theory, governing equations for the boundary conditions, stress-strain relations, interpretation of the rectangular and circular plates by Fourier Series and Airy's Stress Function Reissner-Mindlin's plate theory, and numerical solution using the energy method

[B06537]  현장조사및시험 SITE INVESTIGATION (3(3))

The class covers site survey planning, field-situ testing, sampling, laboratory tests, and optimal design technique based on physical, mechanical properties of measurement.

[B09289]  개별연구(1) INDEPENDENT STUDY (1) (3(3))

This course is offered to make it possible for a master's degree student to thoroughly investigate a topic related to his or her research interest. 

[B09290]  개별연구(2) INDEPENDENT STUDY (2) (3(3))

This course is offered to make it possible for a doctoral degree student to thoroughly investigate a topic related to his or her research interest. 

[B09426]  특수문제연구(1) SPECIAL STUDY (1) (3(3))

The goal of this course is to introduce a newly emerging research topics. The class may be offered jointly with another departments.

한국회화
 This class is intended to introduce recent academic fields that are newly emerging in each major fields. This class is also opened as an inter-disciplinary subject in association with other major.

2010-1
Special study for emerging materials, synthesis and fabrication.

[B09427]  특수문제연구(2) SPECIAL STUDY (2) (3(3))

The goal of this course is to introduce a newly emerging research topics. The class may be offered jointly with another departments.

2010-1
Special study for emerging materials, synthesis and fabrication.

[B09428]  특수문제연구(3) SPECIAL STUDY (3) (3(3))

The goal of this course is to introduce a newly emerging research topics. The class may be offered jointly with another departments.

2010-1
Special study for emerging materials, synthesis and fabrication.

[B10173]  PS콘크리트설계특론 ADVANCED PRESTRESSED CONCRETE DESIGN (3(3))

This course focuses on basic concepts and principles of prestressed concrete, properties of materials, tendon installation methods, and construction phase review, prestressing losses, stress analysis of flexural members, flexural strength analysis, and inelastic behavior of PC steel stress change. Also the course covers the second moment of indeterminate structures, cross-sectional changes due to creep mechanisms, step-by-step structure analysis, calculation of the ultimate moment method, PC structures design, shear strength and the design of PC steel anchorage device.

[B10185]  환경관리현안문제세미나 SEMINAR IN ENVIRONMENTAL MANAGEMENT (3(3))

토목공학과 2005-1
Management and Innovative Technology in Surface Water, Groundwater and Soil Environments; Literature Review and Seminars in Special Topics; 
Project and Examination.

[B12107]  신재생에너지특론 ADVANCED TOPICS IN NEW RENEWABLE ENERGY (3(3))

 This course focuses on understanding of various renewable energy sources (hydrogen, solar, wind, bio, ocean, geothermal, micro-hydro, waste), environmentally friendly low-carbon technologies, and related policies to achieve carbon neutrality and energy independence in environmental infrastructure.

[B12860]  개수로수리학 OPEN CHANNEL HYDRAULICS (3(3))

This course covers the following areas: advanced hydraulics of free surface flow in rivers and open channels; discussion of theory, analytical and numerical solution techniques, and their applications to gradually and rapidly varied nonuniform flows, unsteady flow, and flow in open-channel networks.

[B12864]  유역모형화기법 WATERSHED MODELING (3(3))

The course introduces basic and advanced watershed modeling concepts, techniques and applications for student to deal with digital geographic datasets, delineate watersheds, determine watershed characteristics, model hydrologic processes, perform hydrologic simulations using lumped and distributed watershed models

[B12865]  수문기상학 HYDROCLIMATOLOGY (3(3))

This course gives students the knowledge with an emphasis on better understanding the physical processes associated with the movement of water, especially for precipitation processes, land surface-atmosphere interaction, surface energy balance, evapotranspiration, heat and moisture fluxes into the soil.

[B12867]  수치유체역학 NUMERICAL FLUID DYNAMICS (3(3))

The goal of this coursework is solving fluid flow problems.  In so doing you need awareness of three areas of study: (1) fluid dynamics and kinematics; (2) programming, data interrogation, and visualization, and (3) the numerical methods that tie the first two areas together.

[B13452]  건설시스템공학과세미나 SEMINAR IN CIVIL ENGINEERING (1(1))

This seminar course gives the opportunities for the graduate students majoring in Civil Engineering to complete their thesis by means of presenting some papers related to their research toopic and discussing with the other students who are studying the same topic and the different topic.

[B13614]  스마트내진설계 SMART SEISMIC DESIGN (3(3))

 Based on structural dynamics, vibration analysis for single-degree-of-freedom system and multi-defree-of-freedom system, seismic design load, time-history analysis and response spectrum analysis are covered for analysis, and basic seismic design concept and design method and procedure for reinforced concrete structures are covered in this course.

[B13615]  구조물건전성모니터링시스템 SAFETY AND RELIABILITY OF STRUCTURES (3(3))

 This lecture covers concepts and definitions of safety, statistical approach of load distribution, structures, the concept and calculation method of safety factor and reliability index, structural safety of diagnostic and test methods, fracture analysis of structures, the theoretical background of the specification clause, buildings and bridges, etc.

[B13616]  인프라구조시스템특론 ADVANCED OF INFRA STRUCTURE SYSTEM (3(3))

 The purpose of this lecture is to cover thermodynamic behavior of the structure, local buckling design method, torsional members, and design and construction of steel composite structure.

[B13617]  기계학습기반최적설계 OPTIMUM DESIGN OF STRUCTURES (3(3))

 This course focuses on the basic principles and concepts of structural design optimization, and the design of decision variables and objective function, Sensitivity analysis of the objective function according to the variables, the optimal design algorithm, and optimal design of materials according to structural types (beam, truss, arch, steel construction, reinforced, concrete structures, prestressed concrete structures, and steel concrete composite structure) will be covered.

[B13625]  스마트흙구조물설계 DESIGN OF SMART SOIL STRUCTURES (3(3))

 This is an introductory course emphasizing a study on the design method (earth dam, seawall, tunnels, retaining walls, and sheathing), soft ground improvement method, consolidation process, the substitution process, reinforcing process, pile foundations, the theoretical analysis, and the applicability of the actual ground structure design.

[B13726]  건설빅데이터분석 BIG DATA ANALYTICS FOR CONSTRUCTION (3(3))

This course explores and analyzes various big data generated from construction project process. This course focuses on collection, storage, pre-processing, analysis, interpretation, and implementation of big data from a construction project. A case study approach will be applied to discuss use of big data in construction. 

[B13962]  스마트건설공학특론 ADVANCED SMART CONSTRUCTION TECHNOLOGY (3(3))

This course explores on recent status of development and commercialization of the smart construction technologies in construction. The course enables students to improve practical applicability of the smart construction technologies considering relation to existing civil engineering technologies. 

[B14302]  수공학특론 HYDRAULIC ENGINEERING (3(3))

 The specific objectives of the course are to provide the student with an opportunity to  
1) explore the fundamental principles of fluid mechanics through similarity and experimentation  2) demonstrate and analyze key hydraulic phenomena using hands-on physical devices  and 3) apply computer modeling as a practical tool for solving hydraulics problems.

[B14303]  지속가능물환경관리 SUSTAINABLE WATER ENVIRONMENT MANAGEMENT (3(3))

 Overview of water management and paradigm shift; Basics of modeling; Occurrence and physical, chemical, and biological characteristics of pollutants; Water environment standards; Environmental impact assessment (EIA); Water environment management strategies; Total Mitigation Load Limit (TMDL) and allocation of pollutant load; Material balance; Transport of pollutants; Water quality management and modeling.

[B14304]  수질관리공학특론 ADVANCED WATER QUALITY ENGINEERING (3(3))

 This course covers the current status and application of advanced water environment technology development beyond basic knowledge of water quality engineering

[B14305]  고도처리특론 ADVANCED WATER TREATMENT (3(3))

This course provides technical knowledge for best applicable water treatment methods, design, and operation to produce safe water.

[B14306]  수질공학 WATER QUALITY ENGINEERING (3(3))

 Water quality engineering provides the knowledge and skills necessary to effectively perform the theory, design, modeling, and operation of biological, physicochemical wastewater and sludge treatment systems.

[B14307]  환경기술특론 ADVANCED ENVIRONMENTAL TECHNOLOGY (3(3))

 This course covers understanding of the development and application of green science and cutting-edge innovative technologies necessary to solve various environmental pollution and energy problems.

[B14308]  수문학특론 HYDROLOGICAL ANALYSIS AND MEASUREMENT (3(3))

 This course focuses on fundamentals of water cycle, hydrology, analysis methods and observations of numerical and analytical methods.

[B14309]  건설안전관리특론 ADVANCED CONSTRUCTION SAFETY MANAGEMENT (3(3))

 This course discusses theories and practices of safety management for a construction project. This couse focuses on safety policies and regulations, safety management practices, safety management using smart technologies, safety risk assessment, design for safety, and safety countmeasures based on case studies. 

[B14310]  건설리스크관리특론 ADVANCED CONSTRUCTION RISK MANAGEMENT (3(3))

 This course wioo focus on understanding uncertainty and managing risk throughout construction project delivery. Theoretical and practical approaches will be provided to identify, classify, and quantify various risks so as to understand risk mitigation and management strategies. In addition, educate compentency training and domestic and overseas project concept of financing business to make right decisions in timely manner.

[B02582]  수자원의사결정론 WATER RESOURCES DECISION THEORY (3(3))

This course focuses on decision making process for the use of water resources, development, planning required in the design methodology and techniques.

[B03668]  재료역학특론 ADVANCED MECHANICS OF MATERIALS (3(3))

This course is concerned with governing differential equations of structural problems, deformations of structures, stresses & strains, stress functions of structures under static loads, torsions, nonlinear beams, shear beams, beams on elastic supports, and thermal stresses.

[B04395]  탄성론 THEORY OF ELASTICITY (3(3))

토목공학과
Classical theory of elasticity. Plane stress and plane strain. Torsion of structural members with non-circular cross sections. Applications of energy methods and numerical techniques to problem in continuum mechanics. 

건축공학과 2005-1
Based on the mathematical tools of continuum mechanics, stress principles, kinematics of deformation and motion fundamental laws and equations are dealt with.
For the applications in linear elasticity, fundamentals of isotropic linear elasticity solution of plane elasticity problem, St. Venant bending and torsion, singular solutions, and basic 3-dimensional solutions are managed.

[B04414]  토목통계및확률론 STATISTICAL AND PROBABILISTIC THEORY IN CIVIL ENGINEERING (3(3))

This course will introduce the applications of probability and statistics to civil engineering problems. Probability models (distributions) and selected statistical estimation techniques will be presented. More advanced techniques also may be discussed as follows, analysis of uncertainty, queuing theory, and system simulation.

[B04428]  토질역학특론 ADVANCED SOIL MECHANICS (3(3))

Considers the topics: the origin and nature of soils; physical and mechanical behavior; stress-strain-strength behavior of cohesionless and cohesive soils and application to lateral earth stresses, bearing capacity and slope stability; consolidation theory and settlement analyses.

[B10172]  환경관리및계획 ENVIRONMENTAL MANAGEMENT AND POLICIES (3(3))

토목공학과 2005-1
Introduction of Environmental Policies and Management; 
Environmental Regulations and Laws; Environmental Quality; Environmental Education;
Environmental Dispute and Settlement Act; Environmental Technology; 
Conservation of Clean Air, Water and Soil; 
Environmental Economics; International Agreements; Sustainable Development Strategy 
Seminars and Reports. Examination.

[B11381]  건설시스템최적화론 CONSTRUCTION OPTIMIZATION (3(3))

This class will discuss a variety of circumstances that may occur during the entire process of construction and civil engineering system, and will study the optimization process to solve the problems with numerical formulation and decision process. This class will deal with linear system, linear programming, sensitivity analysis, decision making process, and forecasting for optimal solution in construction and civil engineering system.

[B13613]  구조물수치해석및프로그래밍 COMPUTER-AIDED NUMERICAL ANALYSIS (3(3))

 This course is the process of formalizing a mathematical model of the physical phenomena. The class covers numerical analysis using the computer program for the computation of the matrix eigenvalue problem, the solution of simultaneous equations and differential equations, interpolation and numerical integration of the numerical method.