Course Name
Course number
Language
Credts
Branch
Course outline
Introduction to Building Information Modeling
3
Korean course
Major
본원
-
Course Name
Introduction to Building Information Modeling
Summary
Lecture Objectives
- Building Information Modeling (BIM) is a key technology in smart construction and essential for the digital transformation of the construction industry. This course provides an overview of BIM in the construction industry, including its definition, technology, and policies. It covers open BIM standards, BIM design and construction techniques, digital collaboration systems, BIM data collection and analysis techniques, BIM-based digital construction management techniques, generative design using AI, and data-driven digital engineering techniques. The course combines theory and practical exercises, along with
case studies of practical applications in the construction industry.
Infrastructure Management System
3
Korean course
Major
본원
-
Course Name
Infrastructure Management System
Summary
Lecture Objectives
- Students will be able to define the elements of planning, design, construction, maintenance, rehabilitation, and management of transportation constructed facilities and sketch the infrastructure management framework, explain the decision-making levels, and list the main benefits of utilizing infrastructure management system.
Advanced Theory of Urban Planning
3
Korean course
Major
본원
-
Course Name
Advanced Theory of Urban Planning
Summary
Lecture Objectives
- In this lecture, students learn the basic contents and theories for urban planning. Lectures are given on various urban planning systems and techniques such as urban master plan for the long-term vision and spatial composition of the city, urban management plan, which is a key tool for urban planning and operation, and district unit plan that constitutes the shape of the city. In addition, through lectures, students will learn and discuss issues about urban resilience, resident participation, and carbon neutrality, which are the paradigms of recent urban planning.
Advanced Water & Wastewater Engineering
3
Korean course
Major
본원
-
Course Name
Advanced Water & Wastewater Engineering
Summary
Lecture Objectives
- Basic concept, standard of an institution are understood in waterworks system. Also principle of basis equation, plan and design of water intak/supply/treatment and distibution, problem solving method of facilities operation & management are lectured.
Applied Water Resources Engineering
3
Korean course
Major
본원
-
Course Name
Applied Water Resources Engineering
Summary
Lecture Objectives
- 수자원 실무를 위한 기초 지식 습득과 연습을 목적으로 하며, 수문학, 수리학, 수문통계학 들의 기초지식을 활용하여 수자원 사업 및 계획을 위한 실무 적용 방법론 등을 다룬다.
In this lecture, the basic theory and technology for water resources engineering project. Using the knowledge and experience of hydrology, hydraulic and statistics, the practical approach for water-related project planning is delivered.
Water Quality Management of Rivers and Lakes
3
Korean course
Major
본원
-
Course Name
Water Quality Management of Rivers and Lakes
Summary
Lecture Objectives
- understanding 1) the limnology and river ecosystem, 2) the river and lake water quality management techniques and field application plans, 3) the ecological river creation techniques considering water circulation and point and non-point pollution sources.
Physico-Chemical Process for Enhanced Water Treatment
3
Korean course
Major
본원
-
Course Name
Physico-Chemical Process for Enhanced Water Treatment
Summary
Lecture Objectives
- 수돗물의 생산을 위하여 필요한 물리화학적 처리기술의 기본 지식을 기반으로 정수처리를 위한 일반적인 기술들을 한 단계 높일 수 있는 고급기술들의 원리 및 이들을 현장에 적용하는 자동화 기법 등을 강의 한다.
This course covers the automated techniques such as applying them in the field of advanced principles and technology that can improve the general technique for the water process is based on the basic knowledge of the physical and chemical treatment technologies necessary for the production of drinking water.
Introduction to Smart Construction
3
Korean course
Major
본원
-
Course Name
Introduction to Smart Construction
Summary
Lecture Objectives
- This course introduces the concept of smart construction, use cases, and digital transformation trends. In addition, it explains database, BIM-GIS, SCAN & Vision, AI & Big data, Cloud Platform, IoT, Robotics, Digital Twin, and international standard technologies that are the foundation of smart construction. In addition, using computer languages such as Python, students will implement basic techniques such as data structure design, deep learning, and IoT data analysis. Through this course, students can design smart construction use case scenarios useful for business and understand how to effectively implement them.
Advanced Rock Mechanics
3
Korean course
Major
본원
-
Course Name
Advanced Rock Mechanics
Summary
Lecture Objectives
- Covering fundamental physical and mechanical characteristics of rock, evaluation method of discontinuity, and classification of rock mass and practical applications. (2) Understanding various coupled thermo-hydro-mechanical behavior of rock, and methodology of laboratory experiment and numerical modeling, for practical application in energy resouces engineering (e.g., reservoir engineering and nuclear waste disposal).
Applied Groundwater Engineering
3
Korean course
Major
본원
-
Course Name
Applied Groundwater Engineering
Summary
Lecture Objectives
- A study to understand groundwater as a process of hydrological components, recharge from precipitation, understand the characteristics and principles of the baseflow through the aquifer, and understand the behavior of groundwater according to pumping etc.
Computational Geomechanics
3
Korean course
Major
본원
-
Course Name
Computational Geomechanics
Summary
Lecture Objectives
- Understanding theoretical background and basic concept of numerical analysis using artificial neural network and some representative finite element method to solve geotechnical problems and apply in practice.
Introduction to Groundwater Hydraulics for Flow and Transport Modeling
3
Korean course
Major
본원
-
Course Name
Introduction to Groundwater Hydraulics for Flow and Transport Modeling
Summary
Lecture Objectives
- 지하수 흐름 내 오염물질의 이송, 확산 및 저감의 기초이론을 습득하고 1차원 및 2차원 유한차분 해석을 위한 모델링의 실습한다.Fundermental therory of contaminant transport including advection, dispersion and reaction processes are studied. Also, numerical approaches for finite-difference solution to solve groundwater flow and transport equations in unsaturated flow equations are goint to dealt.
Advanced Mobility System
3
Korean course
Major
본원
-
Course Name
Advanced Mobility System
Summary
Lecture Objectives
- The subject aims to provide a comprehensive education on the design, construction, and
operation of an appropriate system in the process of meeting the societal needs and road
infrastructure input for various advanced mobility systems. With the emergence of
advanced mobility systems in the field of transportation, including the reduction of traffic
accidents, congestion, safety, and carbon neutrality issues, it is crucial to understand the
types, technological trends, construction, and operation systems of advanced mobility. This
course will cover procedural methodologies for analyzing advanced mobility systems and
methods of integrating information, enabling a holistic understanding of the overall
transportation system. It will also educate students on system design approaches at each
stage of the information collection, processing, and information provision processes through
systematic analysis of recent trends in mobility systems.
River Hydraulics
3
Korean course
Major
본원
-
Course Name
River Hydraulics
Summary
Lecture Objectives
- ? Velocity distribution, flow computation, computational process for steady uniform flow and hydraulic features and analysis methods for gradually varied flow are lectured for understanding flow characteristics in open channels. Methods to analyze and solve various hydraulic problems based on fundamental principles of open channel flow are introduced in this lecture.
Environmental Chemistry
3
Korean course
Major
본원
-
Course Name
Environmental Chemistry
Summary
Lecture Objectives
- 환경오염물질의 제거원리는 생화학적 산화-환원, 화학처리 및 물리적 분리, 이온교환, 흡착 등이다. 본 강의에서는 이의 원리를 화학공정학적 측면으로 설명하고 해석하여 각 처리원리에 대한 이해를 도모하고자 한다.
The fundamentals of pollutant removal in environmental engineering are based on chemical oxidation-reduction, chemical reaction and physical separation, ion exchange, and adsorption et.al. This class will promote understanding for pollutant treatments by introduction chemical treatment through environmental process.