Research field (1):
Atmospheric and hydrospheric science
Research theme for competitive and other funds (3):
2018 - 2021 Basic study on hierarchical structure of tornado-spawning cyclones and predictability of tornadoes
2016 - 2020 Clarification of genesis and development mechanism of cumulonimbus with the next-generation data assimilation and ensemble simulations
2009 - 2014 Study of advanced data assimilation and cloud resolving ensemble technique
Papers (15):
Kazuo Saito, Takuya Kawabata, Hiromu Seko, Takemasa Miyoshi, Le Duc, Tsutao Oizumi, Masaru Kunii, Guixing Chen, Kosuke Ito, Junshi Ito, et al. Forecast and Numerical Simulation Studies on Meso/Micro-scale High-Impact Weathers Using High-Performance Computing in Japan. Numerical Weather Prediction: East Asian Perspectives. 2023. 461-481
TOCHIMOTO Eigo, YOKOTA Sho, NIINO Hiroshi, YANASE Wataru. Ensemble Experiments for a Maritime Meso-β-scale Vortex that Spawned Tornado-Like Vortices Causing Shipwrecks. Journal of the Meteorological Society of Japan. Ser. II. 2022
Sho Yokota, Hiromu Seko. Ensemble-based singular value decomposition analysis to clarify the causes of heavy rainfall. QUARTERLY JOURNAL OF THE ROYAL METEOROLOGICAL SOCIETY. 2021. 147. 737. 2244-2263
横田 祥, 新野 宏, 瀬古 弘, 國井 勝, 山内 洋. Tornadogenesis Investigated by Data Assimilation and Ensemble Forecasts. ながれ : 日本流体力学会誌 = Nagare : journal of Japan Society of Fluid Mechanics. 2019. 38. 1. 8-13
