1 CFU Historical development of global seismology; seismic networks; seismic waveform: basic knowledge and processing, seismic waves vs primary source type (seismic signals: noise, earthquakes, blast, .)
1 CFU Source location (theoretical aspect, standard and new location algorithms, estimation of seismic location parameters), Energy Release (magnitude and seismic moment)
1 CFU Seismic source mechanism (Focal mechanism Solutions using polarity of P-wave fast motion, S-wave to P-wave amplitude ratios, using waveform inversion - i.e. NEIC fast moment tensors, Harvard CMT solutions, EMSC rapid source parameter determinations)
1 CFU Historical seismicity (Major historical events in the world, characterization of historical events, Macroseismic scales, macroseismic fields, “location” of historical events, completeness assessment of a catalogue), overview of empirical relations empirical relationships between magnitude/intensity, strong motion parameters and intensity: an open discussion
1 CFU Instrumental catalogues, catalog artifacts and quality control, seismicity characterization (background seismicity, swarms, seismic sequences), spatio-temporal analysis, seismicity rates, Estimation of Gutenberg-Richter seismicity parameters, Stochastic simulation of earthquake catalogs.
1 CFU Seismic deformation from earthquake and GPS, overview of Stress inversion methods from earthquake focal mechanism solutions, Coulomb stress calculation