หลักสูตรวิศวกรรมศาสตรมหาบัณฑิต สาขาวิศวกรรมโยธา (หลักสูตรนานาชาติ)
START:
August 16
DURATION:
2 Years
START:
August 16
DURATION:
2 Years
A growing population, aging infrastructure, a changing climate, and pollution challenges to our city’s sustainability and quality of life. Since more than half of the world’s population living in cities today, this highlights the need to look holistically at the nation’s infrastructure throughout its life, from the planning stages through design, construction, operation, maintenance, and rehabilitation.
This program is a 2-year interdisciplinary program that aims to prepare new generations of civil engineers to gain a broad range of domain knowledge including urban and infrastructure planning, geotechnical and structural systems, construction management, transportation systems analysis, environmental and sustainability-related policies.
Program Structure
The program consists of 24 credits of coursework and 12 credits of thesis. The required courses take 15 credits. The elective courses, chosen to suit students’ fields of interest and research topics, must be at least 9 credits.
| Courses | Credits |
|---|---|
| Required Courses | 15 Credits |
| Elective Courses | 9 Credits |
| Thesis | 12 Credits |
| Total | 36 Credits |
Required Courses
- Applied Mathematics and Statistics for Civil Engineering
- Project Management for Large-Scale Infrastructure
- Sustainable Building Systems and Management
- Research Skills Development in Civil Engineering
- Seminar
Elective Courses
A student may choose any of these elective courses from any fields. It is not necessary to choose your elective course from a single field as we understand that your research interest may be interdisciplinary.
Construction Management
- Construction Planning and Control
- Construction Techniques and Equipment
- Construction Cost, Economics and Finance
- Construction Safety Management
- Construction Organizational Management
- Law and Contract Administrations
- Quality Control in Construction Projects
Geoinformatics
- Applied Geoinformatics for Land Use Planning
- Applied Geoinformatics for Watershed Management
- Geoinformatics System in Engineering
- Geoinformatics for Disaster Management and Mitigation
- Geoinformation Technology Applications for Climate Change
- Geoinformatics for Transportation Analysis
- Hydrometeorology
- Natural Disaster Engineering
Geotechnical Engineering
- Advanced Foundation Engineering
- Determination of Soil Properties
- Earth Structures
- Engineering Properties of Soil
- Excavations and Support Systems
- Finite Element Method for Geotechnical Engineering
- Geoenvironmental Engineering
- Soil and Site Improvement
- Theoretical Soil Mechanics
Structural Engineering
- Advanced Design of Prestressed Concrete
- Advanced Design of Reinforced Concretes
- Advanced Design of Steel Structure
- Applied Mathematics for Engineering
- Applied Differential Equations for Engineering
- Finite Element Method for Civil Engineering
- Inverse Problem Analysis for Civil Engineering
- Numerical Methods for Engineering
- Optimization Methods for Engineers and Scientists
- Seismic Repair and Rehabilitation
- Structural Analysis and Structural Dynamics
Construction Materials
- Advanced Cementitious Materials
- Advanced Mechanics of Materials
- Durability of Concrete and Structures
- Destructive and Non-Destructive Testing
- Repair and Maintenance of Reinforced Concrete
Transportation Engineering
- Highway Design and Traffic Safety
- Intelligent Transportation System (ITS)
- Network Analysis Methods and Applications
- Transportation, Energy, and Environment
- Traffic Flow Theory and Applications
- Traffic Engineering and Operations
- Traffic Simulation Modeling
- Travel Demand Modeling
- Urban Transportation Planning
*Please note that some courses may not be offered every year and some courses may require prerequisite course(s).
Study Plan
The normal path of study takes 4 semesters (2 years). The first semester provides foundation courses to broaden the professional horizon. The second semester offers a variety of elective courses. In the third semester, besides additional elective courses, research proposal in relation to individual’s preference must be prepared with approval of your thesis advisor(s). During the fourth semester, students should complete thesis and oral defense exam.
First Year
| Code | Subject | Credit |
|---|---|---|
| 1st Semester | ||
| EGCE 614 | Applied Mathematics and Statistics for Civil Engineering | 3 |
| EGCE 661 | Project Management for Large-Scale Infrastructure | 3 |
| EGCE 528 | Project Seminar | 1 |
| EGCE 521 | Research Skills Development in Civil Engineering | 2 |
| Elective Course (Specialization) | 3 | |
| Total | 12 | |
| 2nd Semester | ||
| EGCE 509 | Advanced Computer and Technology Applications in Civil Engineering | 3 |
| EGCE 522 | Sustainable Building Systems and Management | 3 |
| Elective Courses (Specialization) | 6 | |
| Total | 12 | |
Second Year
| Code | Subject | Credit |
|---|---|---|
| 1st Semester | ||
| EGCE 698 | Thesis | 6 |
| Total | 6 | |
| 2nd Semester | ||
| EGCE 698 | Thesis | 6 |
| Total | 6 | |
