StudyQA — Master: Management of Civil Infrastructure

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Description Contents Requirements

A new master’s course program (2 years) in the Department of Civil and Earth Resources Engineering, Kyoto University has started in April 2011, that is, the International Course in Management of Civil Infrastructure. All lectures and research guidance are provided in English. This course aims to cultivate human resources capable of managing civil infrastructures and addressing environmental issues in various countries, particularly in the developing countries of the Asian and African regions.

Common Subject

10D051	Frontiers in Modern Science & Technology
10i045	Exercise in Practical Scientific EnglishⅠ
10i046	Exercise in Practical Scientific EnglishⅡ
10K005	Advanced Modern Science and Technology（English lecture）
10K001	Introduction to Advanced Material Science and Technology（English lecture）
10i041	Professional Scientific Presentation Exercises（English lecture）
10i042	Advanced Engineering and Economy（English lecture）
10i047	Engineering Project Management Ⅰ（English lecture）
10i048	Engineering Project Management Ⅱ（English lecture）
10i009	Internship

10F251	Exercise on Project Planning
10U055	Seminar on Infrastructure Engineering A
10U056	Seminar on Infrastructure Engineering B
10U059	Internship on Infrastracture Engineering
10F063	Practice in Infrastructure Engineering
10F003	Continuum Mechanics
10F067	Structural Stability
10F068	Material and Structural System & Management
10F261	Earthquake Engineering/Lifeline Engineering
10W001	Infrastructural Structure Engineering
10F009	Structural Design
10F010	Bridge Engineering
10A019	Concrete Structural Engineering
10F227	Structural Dynamics
10F263	Seismic Engineering Exercise
10F415	Ecomaterial and Environment-friendly Structures
10F089	Infrastructure Safety Engineering
10F075	Hydraulics & Turbulence Mechanics
10A216	Hydrology
10F019	River Engineering and River Basin Management
10A040	Sediment Hydraulics
10F464	Hydrologic Design and Management
10F245	Open Channel Hydraulics
10F462	Coastal Wave Dynamics
10F267	Hydro-Meteorologically Based Disaster Prevention
10A222	Water Resources Systems
10F077	River basin management of flood and sediment
10F269	Coastal and Urban Water Disasters Engineering
10F466	Basin Environmental Disaster Mitigation
10F011	Computational Fluid Dynamics
10F065	Hydraulic Engineering for Infrastructure Development and Management
10F100	Applied Hydrology
10F103	Case Studies Harmonizing Disaster Management and Environment Conservation
10F106	Integrated Disasters and Resources Management in Watersheds
10F025	Geomechanics
10K016	Computational Geotechnics
10F238	Geo-Risk Management
10F241	Construction of Geotechnical Infrastructures
10F405	Fundamental Geofront Engineering
10A055	Environmental Geotechnics
10F109	Disaster Prevention through Geotechnics
10F203	Public Finance
10F207	Urban Environmental Policy
10F219	Quantitative Methods for Behavioral Analysis
10F215	Intelligent Transportation Systems
10A805	Remote Sensing and Geographic Information Systems
10A808	Civic and Landscape Design
10F223	Risk Management Theory
10X333	Disaster Risk Management
693287	Disaster Information
10A845	Theory & Practice of Environmental Design Research
10A402	Resources Development Systems
10F053	Applied Mathematics in Civil & Earth Resources Engineering
10K008	Computational Mechanics and Simulation
10A405	Environmental Geosphere Engineering
10F071	Applied Elasticity for Rock Mechanics
10F073	Fundamental Theories in Geophysical Exploration
10F087	Design of Underground Structures
10A420	Lecture on Exploration Geophysics
10F085	Measurement in the earth's crust environment
10F088	Earth Resources Engineering
10X311	Urban Infrastructure Management
10F113	Global Survivability Studies
693291	Emergency Management Systems
10F201	Information Technology for Urban Society
10Z001	Urban Transport Policy
10Z002	Policy for Low-Carbon Society
10Z003	Urban Transport Management
10F380	Engineering Seminar for Disaster Resilience in ASEAN countries
10F382	Disaster and Health Risk Management for Liveable City

Must have graduated, or be expected to graduate from a Japanese university (excluding Undergraduate School of Global Engineering, Faculty of Engineering, Kyoto University) by March 31, 2017
Must have completed, or be expected to complete 16 years of school education by March 31, 2017
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
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, 2017
Certificate of Graduation (or Expected Graduation) and Transcript of Academic Record
Application Fee ¥10,000, Admission Fee ¥ 282,000, Tuition ¥535,800 /year
TOEFL (or IELTS, TOEIC)

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