Hideo AMAGUCHI

Faculty name
Assistant Professor: Hideo Amaguchi

Research policy and content

Water issues and disaster prevention are issues related to many of the SDGs, including SDG6 and SDG11.On the other hand, natural disasters have occurred all over the world, causing economic damage of 30 trillion dollars (approximately 3 trillion yen) over the past 5000 years and killing 400 million people.Damage is increasing due to urbanization and climate change, and international organizations such as UNESCO, the World Bank, and the Asian Development Bank, as well as JICA, are working to reduce damage, which is the basis for economic development in developing countries. .In Japan as well, river basin flood control is being promoted in which all concerned parties work together to tackle the entire basin.

In collaboration with international organizations, government agencies, private companies, other universities and research institutes, we are developing risk management and water/disaster prevention technologies using advanced technologies such as AI and advanced analysis models.

  1. Development of risk assessment method for river basin flood control
  2. Technological development of green infrastructure development methods
  3. Analysis and technology development from the perspectives of nature, society, economy, and policy regarding international water and disaster prevention

And so on.

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Master/Doctoral thesis theme

*Fundamental study on spatio-temporal and runoff characteristics of heavy rainfall in urban basins using X-band MP radar
*Basic study on sustainability assessment of groundwater resources in Hanoi, Vietnam
Analysis of heavy rainfall characteristics that contributes to the development of small and medium-sized rivers in Tokyo
Numerical solution and model parameter characteristics of Urban Storage Function model
Study on virtual hydrograph reproducibility by random forest method
Investigation of effect of pumping reduction in Musashino plateau using groundwater simulation

Items marked with an asterisk (*) are doctoral dissertation themes

Major Graduation Thesis Themes

Flood runoff and inundation risk assessment in the upper reaches of the Kanda River using NHRCM 5km rainfall data
The Social Background of the Shuto Expressway in the Nihonbashi District Occupying the River Above
Barrier Analysis for Comprehensive Flood Risk Management in Metro Manila, Philippines Using the ISM Method
Creation of virtual hyetograph for small and medium rivers in Tokyo and its characteristics