Research field (1):
Atmospheric and hydrospheric science
Research keywords (3):
地球温暖化
, Heavy rainfall
, Tropical cyclone
Research theme for competitive and other funds (4):
2019 - 2024 Predictability of typhoons and explosive cyclones and multi-scale air-sea interaction
2020 - 2022 Study on midlatitude Typhoons under the changing climate using a high-resolution three-dimensional atmosphere-ocean coupled regional model
2019 - 2022 Development of an observation system for typhoons using airborne phased-array weather radar
2014 - 2017 Rapid Deepening Mechanism of an Extremely Intense Tropical Cyclone
Papers (36):
MIN Kyeong-Seok, TSUBOKI Kazuhisa, YOSHIOKA Mayumi K., MORODA Yukie, KANADA Sachie. Formation Mechanism of a Stationary Line-Shaped Precipitation System in the Kinki District, Japan -Case Study on 1 September 2015 Event-. Journal of the Meteorological Society of Japan. Ser. II. 2021. 99. 2. 357-377
Sachie Kanada, Hidenori Aiki, Kazuhisa Tsuboki, Izuru Takayabu. Future Changes of a Slow-Moving Intense Typhoon with Global Warming: A Case Study Using a Regional 1-km-mesh Atmosphere-Ocean Coupled Model. SOLA. 2021. 17A. Special_Edition. 14-20
Kimura, Nobuaki, Kiri, Hirohide, Kanada, Sachie, Kitagawa, Iwao, Yoshinaga, Ikuo, Aiki, Hidenori. Flood Simulations in Mid-Latitude Agricultural Land Using Regional Current and Future Extreme Weathers. WATER. 2019. 11. 11. 2421-2421