GNGTS 2013 - Atti del 32° Convegno Nazionale

dati locali che quelli globali, interpolati dinamicamente dal WPS su un’area e a una risoluzione definite dall’utente oppure valutare il modello in corrispondenza di un insieme di punti sparsi. Riconoscimenti. La presente ricerca è stata parzialmente finanziata dall’ESA nell’ambito del programma STSE attraverso il progetto Goce Exploitation for Moho Modelling and Applications (GEMMA project), contratto n. 4000102372/10/I-AM. Bibliografia Amante C. e Eakins B., W.; 2009: ETOPO1 1 Arc-Minute Global Relief Model: Procedures, Data Sources and Analysis . NOAA Technical Memorandum NESDIS NGDC-24. Bassin C., Laske G. e Masters G; 2000: The Current Limits of Resolution for Surface Wave Tomography in North America . EOS Trans AGU, 81, F897.2. Braitenberg C., Mariani P. e Pivetta T.; 2011: GOCE observations in exploration geophysics . In Proc. of the 4th International GOCE User Workshop, ESA SP-696, Munich, Germany. Carlson R., L. e Raskin G., S.; 1984: Density of the ocean crust . 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Migliaccio F., Reguzzoni M., Sansò F., Tscherning C., C. e Veicherts M.; 2011: GOCE data analysis: the space-wise approach and the first space-wise gravity field model . In Proc. of the ESA Living Planet Symposium, 28 June – 2 July 2010, Bergen, Norway, ESA SP-686. Mooney W., D., Laske G. e Masters T., G.; 1998: CRUST 5.1: A global crustal model at 5°x5° . Journal of Geophysical Research, 103, 727–747. Moritz H; 1990: The figure of the Earth: theoretical geodesy and the Earth’s interior . Wichmann, Karlsruhe (1990). Reguzzoni M.; 2004: GOCE: the space-wise approach to gravity field determination by satellite gradiometry . PhD Thesis, Politecnico di Milano, Italy. Reguzzoni M. e Tselfes N.; 2009: Optimal multi-step collocation: application to the space-wise approach for GOCE data analysis. Journal of Geodesy, 83, 13–29. Reguzzoni M., Migliaccio F. e Sampietro D.; 2010: Il primo modello di gravità calcolato con l’approccio space-wise dai dati del satellite GOCE e un esempio di applicazione geofisica sull’arco alpino. Atti del XXIX Convegno Nazionale GNGTS, 26-28 Ottobre 2010, Prato, Italia, 524–527. Reguzzoni M. e Sampietro D.; 2012a: Moho estimation using GOCE data: a numerical simulation . In International Association of Geodesy Symposia, “Geodesy for Planet Earth”, Kenyon, S., Pacino, M.C. & Marti, U. (Eds.). 136, 205–214. Reguzzoni M. e Sampietro D.; 2012b: A new global crustal model based on GOCE data grids . Presentato a First International GOCE Solid Earth workshop, Enschede, The Netherlands. Reguzzoni M., Sampietro D. e Sansò F.; 2013: Global Moho from the combination of the CRUST2.0 model and GOCE data . Geophysical Journal International, 195(1), 222–237. Sampietro D. e Reguzzoni M.; 2011. Global Moho from the combination of the CRUST2.0 model and GOCE data . In Atti del XXX Convegno Nazionale GNGTS, 14-17 Novembre 2011, Trieste, Italia, 535–538. Sampietro D., Reguzzoni M. e Braitenberg C.; 2013: The GOCE estimated Moho beneath the Tibetan Plateau and Himalaya . In: International Association of Geodesy Symposia, 139 (In print). Simmons N., A., Forte A., M., Boschi L. e Grand S., P.; 2010: GyPSuM: a joint tomographic model of mantle density and seismic wave speeds. Journal of Geophysical Research, 115, B12310. 211 GNGTS 2013 S essione 3.3