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О ВЫБОРЕ МОДЕЛЕЙ ОЖИДАЕМЫХ ДВИЖЕНИЙ ГРУНТА ПРИ ОЦЕНКЕ СЕЙСМИЧЕСКОЙ ОПАСНОСТИ
В ПЛАТФОРМЕННЫХ РАЙОНАХ
Институт физики Земли им. О.Ю. Шмидта РАН
Журнал: Вопросы инженерной сейсмологии
Том: 42
Номер: 1
Год: 2015
Страницы: 47-57
Ключевые слова: вероятностный анализ сейсмической опасности, спектр реакции, модель ожидаемых движений грунта, пиковое ускорение грунта
Аннотация: О ВЫБОРЕ МОДЕЛЕЙ ОЖИДАЕМЫХ ДВИЖЕНИЙ ГРУНТА ПРИ ОЦЕНКЕ СЕЙСМИЧЕСКОЙ ОПАСНОСТИ
В ПЛАТФОРМЕННЫХ РАЙОНАХ
Список литературы: Аптикаев Ф.Ф. Инструментальная шкала сейсмической интенсивности. М.: Наука и образование, 2012. 176 с.
Abrahamson N., Silva W. Summary of the Abrahamson & Silva NGA ground-motion relations // Earthq. Spectra. 2008. V. 24. P. 67-97.
Akkar S., Bommer J. Empirical equations for the prediction of PGA, PGV, and spectral accelerations in Europe, the Mediterranean Region, and the Middle East // Seismol. Res. Lett. 2010. V. 81, No. 2. P. 195-206.
Atkinson G.M., Boore D.M. Earthquake ground-motion prediction equations for Eastern North America // Bull. Seismol. Soc. Amer. 2006. V. 96, No. 6. P. 2181-2205.
Beauval C., Tasan H., Laurendeau A., Delavaud E., Cotton F., Guéguen Ph., Kuehn N. On the testing of ground-motion prediction equations against small-magnitude data // BSSA. 2012. V. 102, No. 5. P. 1994-2007.
Bommer J.J., Douglas J., Scherbaum F., Cotton F., Bungum H., Fah D. On the selection of ground-motion prediction equations for seismic hazard analysis // Seismol. Res. Lett. 2010. V. 81, No. 5. P. 783-793.
Campbell K.W. Prediction of strong ground motion using the hybrid empirical method and its use in the development of ground-motion (attenuation) relations in Eastern North America // Bull. Seismol. Soc. Amer. 2003. V. 93. P. 1012-1033.
Campbell K.W., Bozorgnia Y. NGA ground motion model for the geometric mean horizontal component of PGA, PGV, PGD and 5%-damped linear elastic response spectra for periods ranging from 0.01 to 10 s // Earthq. Spectra. 2008. V. 24. P. 139-171.
Cauzzi C., Faccioli E. Broadband (0.05 to 20 s) prediction of displacement response spectra based on worldwide digital records // J. Seismol. 2008. V. 12. P. 453-475.
Cotton F., Scherbaum F., Bommer J.J., Bungum H. Criteria for selecting and adjusting ground-motion models for specific target regions: Application to Central Europe and rock sites // J. Seismol. 2006. V. 10. P. 137-156.
Chiou B.S-J., Youngs R.R. An NGA model for the average horizontal component of peak ground motion and response spectra // Earthq. Spectra. 2008. V. 24. P. 173-215.
Delavaud E., Cotton F., Akkar S., Scherbaum F., Danciu L., Beauval C., Drouet S., Douglas J., Basili R., Abdullah M., Margaret S., Faccioli S.E., Theodoulidis N. Toward a ground-motion logic tree for probabilistic seismic hazard assessment in Europe // J. Seismol. 2012. V. 16, No. 3. P. 451-473.
Di Alessandro C., Bozorgnia Y., Abrahamson N.A., Akkar S., Erdik M. GEM-PEER global ground motion prediction equations project: An overview // Proc. 15th World conf. earthq. eng. Lisbon, Portugal, 2012.
Douglas J. Ground-motion prediction equations 1964-2010: Final report BRGM/RP-59356-FR, 2011. 446 p.
Douglas J. Ground motion prediction equations 1964-2014. 2014a. URL: http://www.gmpe.org.uk
Douglas J. Fifty years of ground-motion models // Second Europ. conf. on earthquake engineering and seismology, Istanbul, Turkey, 2014b.
Drouet S., Cotton F., Beauval C. Regionally adjusted ground motion prediction equations (GMPE) for Europe // SHARE Tech. Rep. 2010.
IAEA Safety guide N SSG-9: Seismic hazards in site evaluation for nuclear installations. Vienna, 2010.
Idriss I.M. An NGA empirical model for estimating the horizontal spectral values generated by shallow crustal earthquakes // Earthq. Spectra. 2008. V. 24. P. 217-242.
Pezeshk S., Zandieh A., Tavakoli B. Hybrid empirical ground-motion prediction equations for Eastern North America using NGA models and updated seismological parameters // Bull. Seismol. Soc. Amer. 2011. V. 101, No. 4. P. 1859-1870.
Scherbaum F., Delavaud E., Riggelsen C. Model selection in seismic hazard analysis: an information-theoretic perspective // Bull. Seismol. Soc. Amer. 2009. V. 99. P. 3234-3247.
Silva W.J., Gregor N., Darragh R. Development of regional hard rock attenuation relations for Central and Eastern North America // Pacific eng. and analysis: Tech. rep. 2002.
Stewart J.P., Douglas J., Javanbarg M., Abrahamson N.A., Bozorgnia Y., Boore D.M., Campbelle K.W., Delavaud E., Erdik M., Stafford P.J. Selection of ground motion prediction equations for the global earthquake model // Earthq. Spectra. 2014. V. 30. DOI: 10.1193/013013EQS017M.
Toro G.R. Modifcation of the Toro et al. (1997) attenuation equations for large magnitudes and short distances // Risk Eng. Inc. Rep. 2002. URL: http://www.riskeng.com/PDF/atten_toro_extended.pdf
Toro G.R., Abrahamson N.A., Schneider J.F. Model of strong ground motions from earthquakes in Central and Eastern North America: best estimates and uncertainties // Seismol. Res. Lett. 1997. V. 68. P. 41-57.
Abrahamson N., Silva W. Summary of the Abrahamson & Silva NGA ground-motion relations // Earthq. Spectra. 2008. V. 24. P. 67-97.
Akkar S., Bommer J. Empirical equations for the prediction of PGA, PGV, and spectral accelerations in Europe, the Mediterranean Region, and the Middle East // Seismol. Res. Lett. 2010. V. 81, No. 2. P. 195-206.
Atkinson G.M., Boore D.M. Earthquake ground-motion prediction equations for Eastern North America // Bull. Seismol. Soc. Amer. 2006. V. 96, No. 6. P. 2181-2205.
Beauval C., Tasan H., Laurendeau A., Delavaud E., Cotton F., Guéguen Ph., Kuehn N. On the testing of ground-motion prediction equations against small-magnitude data // BSSA. 2012. V. 102, No. 5. P. 1994-2007.
Bommer J.J., Douglas J., Scherbaum F., Cotton F., Bungum H., Fah D. On the selection of ground-motion prediction equations for seismic hazard analysis // Seismol. Res. Lett. 2010. V. 81, No. 5. P. 783-793.
Campbell K.W. Prediction of strong ground motion using the hybrid empirical method and its use in the development of ground-motion (attenuation) relations in Eastern North America // Bull. Seismol. Soc. Amer. 2003. V. 93. P. 1012-1033.
Campbell K.W., Bozorgnia Y. NGA ground motion model for the geometric mean horizontal component of PGA, PGV, PGD and 5%-damped linear elastic response spectra for periods ranging from 0.01 to 10 s // Earthq. Spectra. 2008. V. 24. P. 139-171.
Cauzzi C., Faccioli E. Broadband (0.05 to 20 s) prediction of displacement response spectra based on worldwide digital records // J. Seismol. 2008. V. 12. P. 453-475.
Cotton F., Scherbaum F., Bommer J.J., Bungum H. Criteria for selecting and adjusting ground-motion models for specific target regions: Application to Central Europe and rock sites // J. Seismol. 2006. V. 10. P. 137-156.
Chiou B.S-J., Youngs R.R. An NGA model for the average horizontal component of peak ground motion and response spectra // Earthq. Spectra. 2008. V. 24. P. 173-215.
Delavaud E., Cotton F., Akkar S., Scherbaum F., Danciu L., Beauval C., Drouet S., Douglas J., Basili R., Abdullah M., Margaret S., Faccioli S.E., Theodoulidis N. Toward a ground-motion logic tree for probabilistic seismic hazard assessment in Europe // J. Seismol. 2012. V. 16, No. 3. P. 451-473.
Di Alessandro C., Bozorgnia Y., Abrahamson N.A., Akkar S., Erdik M. GEM-PEER global ground motion prediction equations project: An overview // Proc. 15th World conf. earthq. eng. Lisbon, Portugal, 2012.
Douglas J. Ground-motion prediction equations 1964-2010: Final report BRGM/RP-59356-FR, 2011. 446 p.
Douglas J. Ground motion prediction equations 1964-2014. 2014a. URL: http://www.gmpe.org.uk
Douglas J. Fifty years of ground-motion models // Second Europ. conf. on earthquake engineering and seismology, Istanbul, Turkey, 2014b.
Drouet S., Cotton F., Beauval C. Regionally adjusted ground motion prediction equations (GMPE) for Europe // SHARE Tech. Rep. 2010.
IAEA Safety guide N SSG-9: Seismic hazards in site evaluation for nuclear installations. Vienna, 2010.
Idriss I.M. An NGA empirical model for estimating the horizontal spectral values generated by shallow crustal earthquakes // Earthq. Spectra. 2008. V. 24. P. 217-242.
Pezeshk S., Zandieh A., Tavakoli B. Hybrid empirical ground-motion prediction equations for Eastern North America using NGA models and updated seismological parameters // Bull. Seismol. Soc. Amer. 2011. V. 101, No. 4. P. 1859-1870.
Scherbaum F., Delavaud E., Riggelsen C. Model selection in seismic hazard analysis: an information-theoretic perspective // Bull. Seismol. Soc. Amer. 2009. V. 99. P. 3234-3247.
Silva W.J., Gregor N., Darragh R. Development of regional hard rock attenuation relations for Central and Eastern North America // Pacific eng. and analysis: Tech. rep. 2002.
Stewart J.P., Douglas J., Javanbarg M., Abrahamson N.A., Bozorgnia Y., Boore D.M., Campbelle K.W., Delavaud E., Erdik M., Stafford P.J. Selection of ground motion prediction equations for the global earthquake model // Earthq. Spectra. 2014. V. 30. DOI: 10.1193/013013EQS017M.
Toro G.R. Modifcation of the Toro et al. (1997) attenuation equations for large magnitudes and short distances // Risk Eng. Inc. Rep. 2002. URL: http://www.riskeng.com/PDF/atten_toro_extended.pdf
Toro G.R., Abrahamson N.A., Schneider J.F. Model of strong ground motions from earthquakes in Central and Eastern North America: best estimates and uncertainties // Seismol. Res. Lett. 1997. V. 68. P. 41-57.
