Расширенный поиск
СТОХАСТИЧЕСКОЕ МОДЕЛИРОВАНИЕ ПРОТЯЖЕННОГО
ОЧАГА ЗЕМЛЕТРЯСЕНИЯ ДЛЯ ПРИМЕНЕНИЯ
ПРИ ОЦЕНКЕ СЕЙСМИЧЕСКОЙ ОПАСНОСТИ.
2. ОПИСАНИЕ РАСЧЕТНЫХ ПРОЦЕДУР
1 Институт вулканологии и сейсмологии ДВО РАН
2 Камчатский филиал Геофизической службы РАН
2 Камчатский филиал Геофизической службы РАН
Журнал: Вопросы инженерной сейсмологии
Том: 40
Номер: 3
Год: 2013
Страницы: 23-53
Ключевые слова: правдоподобие, вычисление, очаговый спектр, разрыв очага землетрясения, субисточник, сценарное землетрясение
Аннотация: СТОХАСТИЧЕСКОЕ МОДЕЛИРОВАНИЕ ПРОТЯЖЕННОГО
ОЧАГА ЗЕМЛЕТРЯСЕНИЯ ДЛЯ ПРИМЕНЕНИЯ
ПРИ ОЦЕНКЕ СЕЙСМИЧЕСКОЙ ОПАСНОСТИ.
2. ОПИСАНИЕ РАСЧЕТНЫХ ПРОЦЕДУР
Список литературы: Гусев А.А. Описательная статистическая модель излучения очага землетрясения и ее применение к оценке короткопериодного сильного движения // Вулканология и сейсмология. 1984. № 1. С. 3-22.
Гусев А.А. Модель очага землетрясения со множеством неровностей // Вулканология и сейсмология. 1988. № 1. С. 41-55.
Гусев А.А. Статистика значений нормированной подвижки в точках разлома-очага землетрясения // Физика Земли. 2011. № 3. С. 24-33.
Гусев А.А. Стохастическое моделирование протяженного очага землетрясения для применения при оценке сейсмической опасности. 1. Обоснование и общая структура алгоритма // Вопросы инженерной сейсмологии. 2013. № 1. С. 5-18.
Гусев А.А., Мельникова В.Н. Связи между магнитудами - среднемировые и для Камчатки // Вулканология и сейсмология. 1990. № 6. С. 55-63.
Гусев А.А., Павленко О.В. Сценарное землетрясение для оценки сейсмических нагрузок в Москве: параметры и модельные движения грунта // Строит. механика и расчет сооружений. 2009. № 4. С. 55-72.
Гусев A.A., Шумилина Л.С. Моделирование связи балл-магнитуда-расстояние на основе представления о некогерентном протяженном очаге // Вулканология и сейсмология. 1999. № 4/5. С. 29-40.
Раутиан Т.Г., Халтурин В.И., Доцев Н.Т., Саргсян Н.М. Макросейсмическая магнитуда // Вопросы инженерной сейсмологии. М.: Наука, 1989. Вып. 30 «Оценка эффекта сильных землетрясений». C. 98-110.
Aguirre J., Irikura K. Source characterization of mexican subduction earthquakes from acceleration source spectra for the prediction of strong ground motions // Bull. Seism. Soc. Amer. 2007. V. 97, N 6. P. 1960-1969.
Andrews D.J. A stochastic fault model. 1. Static case // J. Geoph. Res. 1980. V. 85, N B7. P. 3867-3877.
Andrews D.J. A stochastic fault model. 2. Time-dependent case // J. Geoph. Res. 1981. V. 86. P. 10831-10834.
Atkinson G.M. Source spectra for earthquakes in Eastern North America // Bull. Seism. Soc. Amer. 1993. V. 83, N 6. P. 1778-1798.
Atkinson G.M., Boore D.M. Ground-motion relations for Eastern North America // Bull. Seism. Soc. Amer. 1995. V. 85. P. 17-30.
Beroza G. C., Mikumo T. Short slip duration in dynamic rupture in the presence of heterogeneous fault properties // J. Geoph. Res. 1996. V. 101, N B10. P. 22449-22460.
Blandford R.R. A source theory for complex earthquakes // Bull. Seism. Soc. Amer. 1975. V. 65, N 5. P. 1385-1405.
Boatwright J., Choy G.L., Seekins L.C. Regional estimates of radiated seismic energy // Bull. Seism. Soc. Amer. 2002. V. 92, N 4. P. 1241-1255.
Brune J.N. Tectonic stress and the spectra of seismic shear waves from earthquakes // J. Geoph. Res. 1970. V. 75, N 26. P. 4997-5009.
Dalguer L.A., Miyake H., Day S.M., Irikura K. Surface rupturing and buried dynamic-rupture models calibrated with statistical observations of past earthquakes // Bull. Seism. Soc. Amer. 2008. V. 98, N 3. P. 1147-1161.
Day S.M., Gonzalez S.H., Anooshehpoor R., Brune J.N. Scale-model and numerical simulations of near-fault seismic directivity // Bull. Seismol. Soc. Amer. 2008. V. 98, N 3. P. 1186-1206. doi: 10.1785/0120070190.
Gusev A.A. Descriptive statistical model of earthquake source radiation and its application to an estimation of short-period strong motion // Geoph. J. Roy. Astr. Soc. 1983. V. 74, is. 3. P. 787-808.
Gusev A.A. Multiasperity fault model and the nature of short-period subsources // Pure Appl. Geoph. 1989. V. 130, is. 4. P. 635-660.
Gusev A.A. Intermagnitude relationsips and asperity statistics // Pure Appl. Geoph. 1991. V. 136. P. 515-527.
Gusev A.A. On relations between asperity population and earthquake population on a faul // Tectonophysics. 1992. V. 211, is. 1-4. P. 85-98.
Gusev A.A. Peak factors of Mexican accelerograms: evidence of non-Gaussian amplitude distribution // J. Geoph. Res. 1996. V. 101, N B9. P. 20083-20090.
Gusev A.A. Approximate stochastic self-similarity of envelopes of high-frequency teleseismic P-waves from large earthquakes // Pure Appl. Geoph. 2010. V. 167, is. 11. P. 1343-1363.
Gusev A.A. Broadband kinematic stochastic simulation of an earthquake source: a refined procedure for application in seismic hazard studies // Pure Appl. Geoph. 2011. V. 168, is. 1/2. P. 155-200.
Gusev A.A. High-frequency radiation from an earthquake fault: a review and a hypothesis of fractal rupture front geometry // Pure Appl. Geoph. 2012. P. 1-29. Electronic preprint. doi: 10.1007/s00024-012-0455-y.
Gusev A., Radulian M., Rizescu M., Panza G.F. Source scaling of intermediate-depth Vrancea earthquakes // Geoph. J. Int. 2002. V. 151, is. 3. P. 879-889.
Gusev A.A., Guseva E.M., Panza G.F. Correlation between local slip rate and local high-frequency seismic radiation in an earthquake fault // Pure Appl. Geoph. 2006. V. 163, is. 7. P. 1305-1325.
Halldorsson B., Papageorgiou A.S. Calibration of the specific barrier model to earthquakes of different tectonic regions // Bull. Seism. Soc. Amer. 2005. V. 95, N 4. P. 1276-1300.
Hanks T.C. b values and ωγ seismic source models: Implication for tectonic stress variations along active crustal fault zones and the estimation of high-frequency strong ground motion // J. Geoph. Res. 1979. V. 84, N B5. P. 2235-2242.
Hanks T.C., Bakun W.H. A bilinear source-scaling model for M-log a observations of continental earthquakes // Bull. Seism. Soc. Amer. 2002. V. 92, N 5. P. 1841-1846.
Haskell N.A. Total energy and energy spectral density of elastic wave radiation from propagating faults // Bull. Seism. Soc. Amer. 1964. V. 54, Ν 6. P. 1811-1841.
Haskell N.A. Total energy and energy spectral density of elastic wave radiation from propagating faults. Pt. II. A stochastic fault model // Bull. Seism. Soc. Amer. 1966. V. 56, Ν 1. P. 125-140.
Heaton T.H. Evidence for and implications of self-healing pulses of slip in earthquake rupture // Phys. Earth Planet. Inter. 1990. V. 64, is. 1. P. 1-20.
Ide S., Aochi H. Earthquakes as multiscale dynamic ruptures with heterogeneous fracture surface energy // J. Geoph. Res. 2005. V. 110, N B11303. 10 p. doi:10.1029/2004JB003591.
Irikura K. Predicting strong ground motions with a «Recipe» // Bull. Earthq. Res. Inst. Univ. Tokyo. 2006. V. 81, N 3/4. P. 341-352.
Izutani Y. Source parameters relevant to heterogeneity of a fault plane // J. Phys. Earth. 1984. V. 32, N 6. P. 511-529.
Johnston A. C. Seismic moment assessment of earthquakes in stable continental regions. II. Historical seismicity // Geoph. J. Int. 1996. V. 125. P 639-678.
Joyner W.B. A scaling law for the spectra of large earthquakes // Bull. Seism. Soc. Amer. 1984 V. 74, N 4. P. 1167-1188.
Kakehi Y., Irikura K. Estimation of high frequency wave radiation areas on the fault plane by the envelope inversion of acceleration seismograms // Geoph. J. Int. 1996. V. 125, is. 3. P. 892-900.
Kamae K., Irikura K. Source model of the 1995 Hyogo-ken Nanbu earthquake and simulation of near-source ground motion // Bull. Seism. Soc. Amer. 1998. V. 88, N 2. P. 400-412.
Kanamori H., Allen C.A. Earthquake repeat time and average stress drop // Earthquake source mechanics / Eds S. Das, J. Boatwright, C.H. Scholz. AGU, 1986. P. 227-235.
Kanamori H., Anderson D.L. Theoretical basis of some empirical relations in seismology // Bull. Seism. Soc. Amer. 1975. V. 65, N 5. P. 1073-1095.
Kawasumi H. Measures of earthquake danger and expectancy of maximum intensity throughout Japan as inferred from the seismic activity in historical times // Bull. Earthq. Res. Inst. Univ. Tokyo. 1951. V. 29. P. 469-482.
Koyama J. Earthquake source time-function from coherent and incoherent rupture // Tectonophysics. 1985. V. 118, is. 3/4. P. 227-242.
Lavallée D., Archuleta R.J. Coupling of the random properties of the source and the ground motion for the 1999 Chi Chi earthquake // Geoph. Res. Lett. 2005. V. 32, N 8. P. 1-5.
Lavallee D., Liu P.-Ch., Archuleta R.J. Stochastic model of heterogeneity in earthquake slip spatial distributions // Geoph. J. Int. 2006. V. 165, is. 2. P. 622-640.
Leonard M. Earthquake fault scaling: self-consistent relating of rupture length, width, average displacement, and moment release // Bull. Seism. Soc. Amer. 2010. V. 100, N 5A. P. 1971-1988. doi: 10.1785/0120090189.
Mai P.M. Online database of finite-source rupture models 2004. Режим доступа: http://www.seismo.ethz.ch/srcmod
Mai P.M., Beroza G.C. A spatial random field model to characterize complexity in earthquake slip // J. Geoph. Res. 2002. V. 107, N 2308. 21 p. doi: 10.1029/2001JB0005882308.
Mai P. M., Spudich P., Boatwright J. Hypocenter locations in finite-source rupture models // Bull. Seism. Soc. Amer. 2005. V. 95, N 3. P. 965-980. doi: 10.1785/0120040111.
Manighetti I., Campillo M., Sammis C., Mai P.M., King G. Evidence for self-similar, triangular slip distributions on earthquakes: Implications for earthquake and fault mechanics // J. Geoph. Res. 2005. V. 110, N B05302. 25 p. doi:10.1029/2004JB003174.
Marsan D., Bean C. Multifractal modelling and analyses of crustal heterogeneity // Heterogeneity in the crust and upper mantle / Eds J.A. Goff, K. Hollinger. N.Y.: Kluwer Acad., 2003. P. 207-236.
Miyake H., Iwata T., Irikura K. Source characterization for broadband ground-motion simulation: kinematic heterogeneous source model and strong motion generation area // Bull. Seism. Soc. Amer. 2003. V. 93, N 6. P. 2531-2545.
Morikawa N., Sasatani T. Source models of two large intraslab earthquakes from broadband strong ground motions // Bull. Seism. Soc. Amer. 2004. V. 94, N 3. P. 803-817.
Nakahara H. Seismogram envelope inversion for high-frequency seismic energy radiation from moderate-to-large earthquakes // Adv. Geoph. 2008. V. 50. P. 401-426.
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Гусев А.А. Модель очага землетрясения со множеством неровностей // Вулканология и сейсмология. 1988. № 1. С. 41-55.
Гусев А.А. Статистика значений нормированной подвижки в точках разлома-очага землетрясения // Физика Земли. 2011. № 3. С. 24-33.
Гусев А.А. Стохастическое моделирование протяженного очага землетрясения для применения при оценке сейсмической опасности. 1. Обоснование и общая структура алгоритма // Вопросы инженерной сейсмологии. 2013. № 1. С. 5-18.
Гусев А.А., Мельникова В.Н. Связи между магнитудами - среднемировые и для Камчатки // Вулканология и сейсмология. 1990. № 6. С. 55-63.
Гусев А.А., Павленко О.В. Сценарное землетрясение для оценки сейсмических нагрузок в Москве: параметры и модельные движения грунта // Строит. механика и расчет сооружений. 2009. № 4. С. 55-72.
Гусев A.A., Шумилина Л.С. Моделирование связи балл-магнитуда-расстояние на основе представления о некогерентном протяженном очаге // Вулканология и сейсмология. 1999. № 4/5. С. 29-40.
Раутиан Т.Г., Халтурин В.И., Доцев Н.Т., Саргсян Н.М. Макросейсмическая магнитуда // Вопросы инженерной сейсмологии. М.: Наука, 1989. Вып. 30 «Оценка эффекта сильных землетрясений». C. 98-110.
Aguirre J., Irikura K. Source characterization of mexican subduction earthquakes from acceleration source spectra for the prediction of strong ground motions // Bull. Seism. Soc. Amer. 2007. V. 97, N 6. P. 1960-1969.
Andrews D.J. A stochastic fault model. 1. Static case // J. Geoph. Res. 1980. V. 85, N B7. P. 3867-3877.
Andrews D.J. A stochastic fault model. 2. Time-dependent case // J. Geoph. Res. 1981. V. 86. P. 10831-10834.
Atkinson G.M. Source spectra for earthquakes in Eastern North America // Bull. Seism. Soc. Amer. 1993. V. 83, N 6. P. 1778-1798.
Atkinson G.M., Boore D.M. Ground-motion relations for Eastern North America // Bull. Seism. Soc. Amer. 1995. V. 85. P. 17-30.
Beroza G. C., Mikumo T. Short slip duration in dynamic rupture in the presence of heterogeneous fault properties // J. Geoph. Res. 1996. V. 101, N B10. P. 22449-22460.
Blandford R.R. A source theory for complex earthquakes // Bull. Seism. Soc. Amer. 1975. V. 65, N 5. P. 1385-1405.
Boatwright J., Choy G.L., Seekins L.C. Regional estimates of radiated seismic energy // Bull. Seism. Soc. Amer. 2002. V. 92, N 4. P. 1241-1255.
Brune J.N. Tectonic stress and the spectra of seismic shear waves from earthquakes // J. Geoph. Res. 1970. V. 75, N 26. P. 4997-5009.
Dalguer L.A., Miyake H., Day S.M., Irikura K. Surface rupturing and buried dynamic-rupture models calibrated with statistical observations of past earthquakes // Bull. Seism. Soc. Amer. 2008. V. 98, N 3. P. 1147-1161.
Day S.M., Gonzalez S.H., Anooshehpoor R., Brune J.N. Scale-model and numerical simulations of near-fault seismic directivity // Bull. Seismol. Soc. Amer. 2008. V. 98, N 3. P. 1186-1206. doi: 10.1785/0120070190.
Gusev A.A. Descriptive statistical model of earthquake source radiation and its application to an estimation of short-period strong motion // Geoph. J. Roy. Astr. Soc. 1983. V. 74, is. 3. P. 787-808.
Gusev A.A. Multiasperity fault model and the nature of short-period subsources // Pure Appl. Geoph. 1989. V. 130, is. 4. P. 635-660.
Gusev A.A. Intermagnitude relationsips and asperity statistics // Pure Appl. Geoph. 1991. V. 136. P. 515-527.
Gusev A.A. On relations between asperity population and earthquake population on a faul // Tectonophysics. 1992. V. 211, is. 1-4. P. 85-98.
Gusev A.A. Peak factors of Mexican accelerograms: evidence of non-Gaussian amplitude distribution // J. Geoph. Res. 1996. V. 101, N B9. P. 20083-20090.
Gusev A.A. Approximate stochastic self-similarity of envelopes of high-frequency teleseismic P-waves from large earthquakes // Pure Appl. Geoph. 2010. V. 167, is. 11. P. 1343-1363.
Gusev A.A. Broadband kinematic stochastic simulation of an earthquake source: a refined procedure for application in seismic hazard studies // Pure Appl. Geoph. 2011. V. 168, is. 1/2. P. 155-200.
Gusev A.A. High-frequency radiation from an earthquake fault: a review and a hypothesis of fractal rupture front geometry // Pure Appl. Geoph. 2012. P. 1-29. Electronic preprint. doi: 10.1007/s00024-012-0455-y.
Gusev A., Radulian M., Rizescu M., Panza G.F. Source scaling of intermediate-depth Vrancea earthquakes // Geoph. J. Int. 2002. V. 151, is. 3. P. 879-889.
Gusev A.A., Guseva E.M., Panza G.F. Correlation between local slip rate and local high-frequency seismic radiation in an earthquake fault // Pure Appl. Geoph. 2006. V. 163, is. 7. P. 1305-1325.
Halldorsson B., Papageorgiou A.S. Calibration of the specific barrier model to earthquakes of different tectonic regions // Bull. Seism. Soc. Amer. 2005. V. 95, N 4. P. 1276-1300.
Hanks T.C. b values and ωγ seismic source models: Implication for tectonic stress variations along active crustal fault zones and the estimation of high-frequency strong ground motion // J. Geoph. Res. 1979. V. 84, N B5. P. 2235-2242.
Hanks T.C., Bakun W.H. A bilinear source-scaling model for M-log a observations of continental earthquakes // Bull. Seism. Soc. Amer. 2002. V. 92, N 5. P. 1841-1846.
Haskell N.A. Total energy and energy spectral density of elastic wave radiation from propagating faults // Bull. Seism. Soc. Amer. 1964. V. 54, Ν 6. P. 1811-1841.
Haskell N.A. Total energy and energy spectral density of elastic wave radiation from propagating faults. Pt. II. A stochastic fault model // Bull. Seism. Soc. Amer. 1966. V. 56, Ν 1. P. 125-140.
Heaton T.H. Evidence for and implications of self-healing pulses of slip in earthquake rupture // Phys. Earth Planet. Inter. 1990. V. 64, is. 1. P. 1-20.
Ide S., Aochi H. Earthquakes as multiscale dynamic ruptures with heterogeneous fracture surface energy // J. Geoph. Res. 2005. V. 110, N B11303. 10 p. doi:10.1029/2004JB003591.
Irikura K. Predicting strong ground motions with a «Recipe» // Bull. Earthq. Res. Inst. Univ. Tokyo. 2006. V. 81, N 3/4. P. 341-352.
Izutani Y. Source parameters relevant to heterogeneity of a fault plane // J. Phys. Earth. 1984. V. 32, N 6. P. 511-529.
Johnston A. C. Seismic moment assessment of earthquakes in stable continental regions. II. Historical seismicity // Geoph. J. Int. 1996. V. 125
Joyner W.B. A scaling law for the spectra of large earthquakes // Bull. Seism. Soc. Amer. 1984 V. 74, N 4. P. 1167-1188.
Kakehi Y., Irikura K. Estimation of high frequency wave radiation areas on the fault plane by the envelope inversion of acceleration seismograms // Geoph. J. Int. 1996. V. 125, is. 3. P. 892-900.
Kamae K., Irikura K. Source model of the 1995 Hyogo-ken Nanbu earthquake and simulation of near-source ground motion // Bull. Seism. Soc. Amer. 1998. V. 88, N 2. P. 400-412.
Kanamori H., Allen C.A. Earthquake repeat time and average stress drop // Earthquake source mechanics / Eds S. Das, J. Boatwright, C.H. Scholz. AGU, 1986. P. 227-235.
Kanamori H., Anderson D.L. Theoretical basis of some empirical relations in seismology // Bull. Seism. Soc. Amer. 1975. V. 65, N 5. P. 1073-1095.
Kawasumi H. Measures of earthquake danger and expectancy of maximum intensity throughout Japan as inferred from the seismic activity in historical times // Bull. Earthq. Res. Inst. Univ. Tokyo. 1951. V. 29. P. 469-482.
Koyama J. Earthquake source time-function from coherent and incoherent rupture // Tectonophysics. 1985. V. 118, is. 3/4. P. 227-242.
Lavallée D., Archuleta R.J. Coupling of the random properties of the source and the ground motion for the 1999 Chi Chi earthquake // Geoph. Res. Lett. 2005. V. 32, N 8. P. 1-5.
Lavallee D., Liu P.-Ch., Archuleta R.J. Stochastic model of heterogeneity in earthquake slip spatial distributions // Geoph. J. Int. 2006. V. 165, is. 2. P. 622-640.
Leonard M. Earthquake fault scaling: self-consistent relating of rupture length, width, average displacement, and moment release // Bull. Seism. Soc. Amer. 2010. V. 100, N 5A. P. 1971-1988. doi: 10.1785/0120090189.
Mai P.M. Online database of finite-source rupture models 2004. Режим доступа: http://www.seismo.ethz.ch/srcmod
Mai P.M., Beroza G.C. A spatial random field model to characterize complexity in earthquake slip // J. Geoph. Res. 2002. V. 107, N 2308. 21 p. doi: 10.1029/2001JB0005882308.
Mai P. M., Spudich P., Boatwright J. Hypocenter locations in finite-source rupture models // Bull. Seism. Soc. Amer. 2005. V. 95, N 3. P. 965-980. doi: 10.1785/0120040111.
Manighetti I., Campillo M., Sammis C., Mai P.M., King G. Evidence for self-similar, triangular slip distributions on earthquakes: Implications for earthquake and fault mechanics // J. Geoph. Res. 2005. V. 110, N B05302. 25 p. doi:10.1029/2004JB003174.
Marsan D., Bean C. Multifractal modelling and analyses of crustal heterogeneity // Heterogeneity in the crust and upper mantle / Eds J.A. Goff, K. Hollinger. N.Y.: Kluwer Acad., 2003. P. 207-236.
Miyake H., Iwata T., Irikura K. Source characterization for broadband ground-motion simulation: kinematic heterogeneous source model and strong motion generation area // Bull. Seism. Soc. Amer. 2003. V. 93, N 6. P. 2531-2545.
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