Recent Improvement of WASAVIES: Warning System for Aviation Exposure to Solar Energetic Particle

Friday, 15 February 2019: 10:20
Fountain I/II (Westin Pasadena)
Tatsuhiko Sato1, Ryuho Kataoka2,3, Daikou Shiota4,5, Yuki Kubo4, Mamoru Ishii4, Hiroshi Yasuda6, Shoko Miyake7 and Yoshizumi Miyoshi8, (1)Japan Atomic Energy Agency, Tokai, Japan, (2)National Institute of Polar Research, Tachikawa, Japan, (3)SOKENDAI Graduate University for Advanced Studies, Kanagawa, Japan, (4)National Institute of Information and Communications Technology, Tokyo, Japan, (5)Nagoya University, Institute for Space-Earth Environmental, Nagoya, Japan, (6)Hiroshima University, Hiroshima, Japan, (7)National Institute of Technology, Ibaraki College, Ibaraki, Japan, (8)Nagoya University, ISEE, Nagoya, Japan
Abstract:
A physics-based warning system of aviation exposure to solar energetic particles, WASAVIES, is improved to be capable of real-time and automatic analysis. In the improved system, the count rates of several neutron monitors (NM) at the ground level, as well as the proton fluxes measured by the GOES satellite are continuously downloaded at intervals of 5 min and used for checking the occurrence of ground level enhancement (GLE). When a GLE event is detected, the system automatically determines the model parameters for characterizing the profiles of each GLE event, and nowcasts and forecasts the radiation dose rates all over the world up to 24 h after the flare onset. The performance of WASAVIES is examined by analyzing the four major GLE events of the 21st century. The accuracy of the nowcast data obtained by the model is well validated by the reproducibility of the current NM count rates and GOES proton fluxes as well as the flight-dose measurements. On the other hand, the forecast data are reliable only when the evaluated parameters are stable, as expected in the model. In this presentation, we will explain details of the web-interface of WASAVIES, which will be released in the near future through the public server of NICT.