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ANALYSIS OF BROADBAND SEISMIC NOISE FROM TEMPORARY STATIONS IN AN URBAN ENVIRONMENT, BUCHAREST, ROMANIA
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References24
Wegler U. and Sens- Schönfelder C., Fault zone monitoring with passive ima ge interferometry, Geophysical Journal International, 168, no. 3, pp 1029-1033, 2007.
Bonjer K-P., Oncescu M.C.,Driad L., Rizescu M., A note on empirical site response in Bucharest, Romania, Vrancea Earthquakes: Tectonics, Hazard, and Risk Mitigation, Editors: Wenzel, F., Lungu, D., Kluwer Academic Publishers, pp 149-162, 1999.
Mândrescu N., Radulian M., Mărmureanu G., Microzonation of Bucharest: Geology of the deep cohesionless deposits and predominant period of motion, Revue Roumaine de Geophysique, 48, pp 120-130, 2004.
Grecu B., Radulian M., Mandrescu N., Panza, G.F., Relevance Of H/V Spectral Ratio Technique For Bucharest City. In Harmonization of Seismic Hazard in Vrancea Zone, Springer, Netherlands, pp. 133-149, 2008.
Ritter J. R. R., Bǎlan S.F., Bonjer K-P., Diehl T., Forbiger T., Mǎrmureanu G., Wenzel F., Wirth W., Broadband urban seismology in the Bucharest metropolitan area , Seismological Research Letters, 76, 5, pp 574-580, 2005.
Manea E. F., Michel C., Poggi V., Fäh D., Radulian M., Balan S., Improving the shear wave velocity structure beneath Bucharest (Romania) using ambient vibrations, Geophysical Journal International, submitted, 2016.
McNamara D. E. and Buland R. P., Ambient noise levels in the Continental United States, Bulletin of Seismological Society of America, 94, 4, pp 15717–15727, 2004.
Marzorati S. and Bindi D., Ambient noise levels in north central Italy, Geochemsitry Geophysics Geosystems, doi. DOI: 10.1029/2006GC001256, 2006.
Grecu B., Neagoe C., Tataru D., Seismic noise characteristics at the Romanian broadband seismic network, Journal of Earthquake Engineering, 16, 5, 644–661, 2012.
Nakamura Y., A method for dynamic characteristics estimation of subsurface using microtremor on the ground surface. Quarterly Report Railway Technical Research Institute, 30-1, 25 -30, 1989.
Konno K. and Ohmachi T., Ground motion characteristics estimated from spectral ratio between horizontal and vertical components of microtremors. Bulletin of Seismological Society of America, 88 -1, 228-241, 1998.
Bormann P., Seismic Signals and Noise, New Manual of Seismological Observatory Practice, 34 pp, 2012. 16th International Multidisciplinary Scientific GeoConference SGEM2016 www.sgem.org
Wegler U. and Sens- Schönfelder C., Fault zone monitoring with passive ima ge interferometry, Geophysical Journal International, 168, no. 3, pp 1029-1033, 2007.
Bonjer K-P., Oncescu M.C.,Driad L., Rizescu M., A note on empirical site response in Bucharest, Romania, Vrancea Earthquakes: Tectonics, Hazard, and Risk Mitigation, Editors: Wenzel, F., Lungu, D., Kluwer Academic Publishers, pp 149-162, 1999.
Mândrescu N., Radulian M., Mărmureanu G., Microzonation of Bucharest: Geology of the deep cohesionless deposits and predominant period of motion, Revue Roumaine de Geophysique, 48, pp 120-130, 2004.
Grecu B., Radulian M., Mandrescu N., Panza, G.F., Relevance Of H/V Spectral Ratio Technique For Bucharest City. In Harmonization of Seismic Hazard in Vrancea Zone, Springer, Netherlands, pp. 133-149, 2008.
Ritter J. R. R., Bǎlan S.F., Bonjer K-P., Diehl T., Forbiger T., Mǎrmureanu G., Wenzel F., Wirth W., Broadband urban seismology in the Bucharest metropolitan area , Seismological Research Letters, 76, 5, pp 574-580, 2005.
Manea E. F., Michel C., Poggi V., Fäh D., Radulian M., Balan S., Improving the shear wave velocity structure beneath Bucharest (Romania) using ambient vibrations, Geophysical Journal International, submitted, 2016.
McNamara D. E. and Buland R. P., Ambient noise levels in the Continental United States, Bulletin of Seismological Society of America, 94, 4, pp 15717–15727, 2004.
Marzorati S. and Bindi D., Ambient noise levels in north central Italy, Geochemsitry Geophysics Geosystems, doi. DOI: 10.1029/2006GC001256, 2006.
Grecu B., Neagoe C., Tataru D., Seismic noise characteristics at the Romanian broadband seismic network, Journal of Earthquake Engineering, 16, 5, 644–661, 2012.
Nakamura Y., A method for dynamic characteristics estimation of subsurface using microtremor on the ground surface. Quarterly Report Railway Technical Research Institute, 30-1, 25 -30, 1989.
Konno K. and Ohmachi T., Ground motion characteristics estimated from spectral ratio between horizontal and vertical components of microtremors. Bulletin of Seismological Society of America, 88 -1, 228-241, 1998.
Bormann P., Seismic Signals and Noise, New Manual of Seismological Observatory Practice, 34 pp, 2012. 16th International Multidisciplinary Scientific GeoConference SGEM2016 www.sgem.org
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