GNGTS 2024 - Atti del 42° Convegno Nazionale

Session 2.1 GNGTS 2024 Fig. 3 – Steps of the process to improve forecasting References An Z., Zhan Y., Fan Y., Chen Q., Chen Q., Liu J.; 2019: Investigation of the Characteristics of Geoelectric Filed Earthquake Precursors: a Case Study of the Pingliang Observation Station, China. Ann. Geophys. 62 (5), 545. Bortnik J., Cutler J. W., Dunson C., Bleier T. E.; 2008: The Possible Statistical Relation of Pc1 Pulsations to Earthquake Occurrence at Low Latitudes. Ann. Geophys. 26, 2825–2836. De Santis A., Marchetti D., Pavón-Carrasco F. J., Cianchini G., Perrone L., Abbattista C., et al.; 2019: Precursory Worldwide Signatures of Earthquake Occurrences on Swarm Satellite Data. Sci. Rep. 9, 20287. Fidani, C.; 2015: Particle Precipitation Prior to Large Earthquakes of Both the Sumatra and Philippine Regions: A Statistical Analysis. J. Asian Earth Sci. 114, 384–392. Fidani C.; 2021: West Pacific Earthquake Forecasting Using NOAA Electron Bursts With Independent L-Shells and Ground-Based Magnetic Correlations. Front. Earth Sci. 9:673105. Hayakawa M., Kasahara Y., Nakamura T., Muto F., Horie T., Maekawa S., et al.; 2010: A Statistical Study on the Correlation between Lower Ionospheric Perturbations as Seen by Subionospheric VLF/LF Propagation and Earthquakes. J. Geophys. Res. 115, A09305. Ke F., Wang Y., Wang X., Qian H., Shi C.; 2016: Statistical Analysis of Seismo-Ionospheric Anomalies Related to Ms > 5.0 Earthquakes in China by GPS TEC. J. Seismol 20, 137–149.