Natural disasters are one of the things that have risks and hazards to the population. This study aims to simulate the flood hazard and calculate its impact on the Hitoyoshi area, Japan residential areas. Hitoyoshi was chosen as the case study because the area experienced a catastrophic flood in 2020 that destroyed the city. The calculation of the impact of this study is also based on mapping the area based on land function, damage to buildings, and building materials, especially in areas affected by floods in the city of Hitoyoshi, Kumamoto. The results of this study indicate how much risk will be caused by flooding, especially in the Hitoyoshi area, with simulations carried out in ArcGIS software. In addition, the simulated hazard map is overlaid with buildings to determine the impact caused by the Hitoyoshi Area. This research aims to provide input for the Japanese institution in increasing the risk of natural disasters against floods, especially in the Hitoyoshi area, in dealing with future disasters. Simulations carried out in areas that have been affected by flooding by making a hazard map and validating it to prove the accuracy of the data are expected to be used and applied in several other countries besides Japan.

Abdulharis, R., Handayani, A. P., Isouchi, C., & Meilano, I. (2022). Developing Community Disaster Resilience in the Lembang Fault Area, Indonesia: Lessons Learned from Japanese Experience. Applied Sciences (Switzerland), 12(3). https://doi.org/10.3390/app12031271

Adachi, T. (2009). Flood damage mitigation efforts in Japan. Fifth US-Japan Conference on Flood Control and Water Resources Management, January. http://www.mlit.go.jp/river/basic_info/english/pdf/conf_09-0.pdf

Cabrera, J. S., & Lee, H. S. (2019). Flood-prone area assessment using GIS-based multi-criteria analysis: A case study in Davao Oriental, Philippines. Water (Switzerland), 11(11). https://doi.org/10.3390/w11112203

Das, S., Shaw, R., Kanbara, S., Abe, M., & Komino, T. (2020). DISASTER DURING A PANDEMIC.

Fan, J., & Huang, G. (2020). Evaluation of flood risk management in Japan through a recent case. Sustainability (Switzerland), 12(13). https://doi.org/10.3390/su12135357

FDMA. (2015). Fire and Disaster Management Agency. https://www.fdma.go.jp/en/post1.html

Glas, H., Van Ackere, S., Deruyter, G., & De Maeyer, P. (2016). Flood damage assessment in a GIS - Case study for Annotto Bay, Jamaica. International Journal of Safety and Security Engineering, 6(3), 508–517. https://doi.org/10.2495/SAFE-V6-N3-508-517

Hitoyoshi City Government. (2020). Hitoyoshi City. https://www.city.hitoyoshi.lg.jp/q/list/750.html

Huang, G. (2014). A comparative study on flood management in China and Japan. Water (Switzerland), 6(9), 2821–2829. https://doi.org/10.3390/w6092821

Hussain, M., Tayyab, M., Zhang, J., Shah, A. A., Ullah, K., Mehmood, U., & Al‐shaibah, B. (2021). Gis‐based multi‐criteria approach for flood vulnerability assessment and mapping in district Shangla: Khyber Pakhtunkhwa, Pakistan. Sustainability (Switzerland), 13(6), 1–29. https://doi.org/10.3390/su13063126

ICIMOD. (2006). Preparing for Flood Disaster Mapping and Assessing Hazard in the Ratu Watershed, Nepal. Knowledge Creation Diffusion Utilization, 1–14.

Katiyar, V., Tamkuan, N., & Nagai, M. (2020). Flood Area Detection Using Sar Images With Deep Neural. The 41st Asian Conference of Remote Sensing, 1. https://a-a-r-s.org/proceeding/ACRS2020/yohuwg.pdf

Liu, H., Homma, R., & Iki, K. (2020). Case Study of the 2016 Kumamoto Earthquake: The Disaster Response Capability of Kumamoto Compact City, Japan. MATEC Web of Conferences, 331(December), 01002. https://doi.org/10.1051/matecconf/202033101002

Mallick, J., Alqadhi, S., Talukdar, S., Alsubih, M., Ahmed, M., Khan, R. A., Kahla, N. Ben, & Abutayeh, S. M. (2021). Risk assessment of resources exposed to rainfall induced landslide with the development of gis and rs based ensemble metaheuristic machine learning algorithms. Sustainability (Switzerland), 13(2), 1–30. https://doi.org/10.3390/su13020457

Parmenter, L. (2012). Community and Citizenship in Post-Disaster Japan: The Roles of Schools and Students. Journal of Social Science Education, 11(3), 6–21.

Pistrika, A. K., & Tsakiris, G. (2007). Flood risk assessment: A methodological framework. Water Resources Management: New …, June, 14–16. http://www.ntua.gr/hazard/publications/EWRA_2007.Pistrika.pdf

Prefecture, K., Shakti, P. C., Hirano, K., Iizuka, S., & Misumi, R. (2021). Quick Exposure Assessment of Flood Inundation : A Case Study of Hitoyoshi Quick Exposure Assessment of Flood Inundation : A Case Study of Hitoyoshi City in Kumamoto Prefecture , Japan. December 2020. https://doi.org/10.24732/NIED.00002409

Shakti, P. C., Miyamoto, M., Misumi, R., Nakamura, Y., Sriariyawat, A., Visessri, S., & Kakinuma, D. (2020). Assessing flood risk of the chao phraya river basin based on statistical rainfall analysis. Journal of Disaster Research, 15(7), 1025–1039. https://doi.org/10.20965/jdr.2020.p1025

Tripathi, G., Pandey, A. C., & Parida, B. R. (2022). Flood Hazard and Risk Zonation in North Bihar Using Satellite-Derived Historical Flood Events and Socio-Economic Data. Sustainability (Switzerland), 14(3). https://doi.org/10.3390/su14031472

Uddin, K., Raj Gurung, D., Giriraj, A., & Shrestha, B. (2013). Application of Remote Sensing and GIS for Flood Hazard Management: A Case Study from Sindh Province, Pakistan. American Journal of Geographic Information System, 2(1), 1–5. https://doi.org/10.5923/j.ajgis.20130201.01