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This is a two-year program leading to a Master of Engineering degree. The department aims to make advances in social analysis technology utilizing urban engineering, traffic engineering, and environmental system engineering to analyze human activities in cities. Research is conducted in urban planning and traffic planning to realize safe and sustainable urban systems. Advances in urban infrastructure relating to building foundations and rivers are examined. The department is working to establish methodologies and engineering techniques for the comprehensive management of urban systems, incorporating assessments of the sustainability of cities based on cutting-edge research and an interdisciplinary perspective that embraces the social sciences and humanities. Advanced information communication technology is integrated with social infrastructure technology in order to realize sustainable, safe, and internationally competitive urban systems that can ensure a high quality of life. Lectures and seminar-based subjects are designed for students to independently plan, implement, summarize and present research results from project surveys and company seminars.
10F201Information Technology for Urban Society
10F251Exercise on Project Planning
10F253Capstone Project
10F257Seminar on Urban Management A
10F259Seminar on Urban Managemen B
10F150Long-Term Internship
10U210Practice in Urban Management
10F003Continuum Mechanics
10F067Structural Stability
10F068Material and Structural System & Management
10F261Earthquake Engineering/Lifeline Engineering
10W001Infrastructural Structure Engineering
10F009Structural Design
10F010Bridge Engineering
10A019Concrete Structural Engineering
10F227Structural Dynamics
10F263Seismic Engineering Exercise
10F415Ecomaterial and Environment-friendly Structures
10F089Infrastructure Safety Engineering
10F075Hydraulics & Turbulence Mechanics
10A216Hydrology
10F019River Engineering and River Basin Management
10A040Sediment Hydraulics
10F464Hydrologic Design and Management
10F245Open Channel Hydraulics
10F462Coastal Wave Dynamics
10F267Hydro-Meteorologically Based Disaster Prevention
10A222Water Resources Systems
10F077River basin management of flood and sediment
10F269Coastal and Urban Water Disasters Engineering
10F466Basin Environmental Disaster Mitigation
10F011Computational Fluid Dynamics
10F065Hydraulic Engineering for Infrastructure Development and Management
10F100Applied Hydrology
10F103Case Studies Harmonizing Disaster Management and Environment Conservation
10F106Integrated Disasters and Resources Management in Watersheds
10F025Geomechanics
10K016Computational Geotechnics
10F238Geo-Risk Management
10F241Construction of Geotechnical Infrastructures
10F405Fundamental Geofront Engineering
10A055Environmental Geotechnics
10F109Disaster Prevention through Geotechnics
10F203Public Finance
10F207Urban Environmental Policy
10F213City Logistics
10F219Quantitative Methods for Behavioral Analysis
10F215Intelligent Transportation Systems
10A805Remote Sensing and Geographic Information Systems
10A808Civic and Landscape Design
10F223Risk Management Theory
10X333Disaster Risk Management
693287Disaster Information
10A845Theory & Practice of Environmental Design Research
10A402Resources Development Systems
10F053Applied Mathematics in Civil & Earth Resources Engineering
10K008Computational Mechanics and Simulation
10A405Environmental Geosphere Engineering
10F069Modelling of Geology
10F071Applied Elasticity for Rock Mechanics
10F073Fundamental Theories in Geophysical Exploration
10F087Design of Underground Structures
10A420Lecture on Exploration Geophysics
10F085Measurement in the earth's crust environment
10F039Time Series Analysis
10F086Energy System Management
10F081Infrastructure Creation Engineering
10X311Urban Infrastructure Management
10F113Global Survivability Studies
693291Emergency Management Systems
10Z001Urban Transport Policy
10Z002Policy for Low-Carbon Society
10Z003Urban Transport Management
10Z004Policy for Low-Carbon Society, Advanced.
10Z005Urban Transport Management, Advanced.
10Z006Capstone Project Practice
10Z063Dialog/Liveable Cities
10Z064Dialog/Design of Liveable Cities
10Z065Basic Civil Engineering & Health Sciences I
10Z066Basic Civil Engineering & Health Sciences II
10Z067Policy for Liveable Cities
10Z068Methodology for Liveable Cities
10Z058Seminar on Liveable Cities A
10Z059Seminar on Liveable Cities B
10Z069Disaster and Health Risk Management
10Z070KANSEI Urban Spaces
10Z062Exercise on Project Planning
10F383Engineering Seminar for Disaster Resilience in ASEAN countries 1
10F384Engineering Seminar for Disaster Resilience in ASEAN countries 2
Applicants must have non-Japanese citizenship and hold the residence status of “College Student” at the time of admission, and satisfy any of the following requirements (or will satisfy any of the following requirements by the end of March 2016).
Requirements:
(1) Must have graduated, or be expected to graduate from a Japanese university (excluding Undergraduate School of Global Engineering, Kyoto University) by March 31, 2016
(2) Must have completed, or be expected to complete 16 years of school education by March 31, 2016
(3) Must have completed 15 years of school education in a foreign country and must be recognized by the Graduate School of Engineering, Kyoto University as having earned specified credits with excellent grades
(4) Must be qualified by means of an individual entrance examination by the Graduate School of Engineering of Kyoto University, must be judged to have academic ability equivalent or superior to a university graduate, and must be at least 22 years of age by March 31, 2016
Want to improve your English level for admission?
Prepare for the program requirements with English Online by the British Council.
- ✔️ Flexible study schedule
- ✔️ Experienced teachers
- ✔️ Certificate upon completion
📘 Recommended for students with an IELTS level of 6.0 or below.
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