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ИЗУЧЕНИЕ СКОРОСТНЫХ ХАРАКТЕРИСТИК ГРУНТОВ МЕТОДОМ MASW ДЛЯ ЗАДАЧ СЕЙСМИЧЕСКОГО МИКРОРАЙОНИРОВАНИЯ
1 Институт физики Земли им. О.Ю. Шмидта РАН
2 Институт физики Земли им. О.Ю.Шмидта РАН
2 Институт физики Земли им. О.Ю.Шмидта РАН
Журнал: Вопросы инженерной сейсмологии
Том: 41
Номер: 4
Год: 2014
Страницы: 67-77
Ключевые слова: сейсмическое микрорайонирование (СМР), многоканальный анализ поверхностных волн (MASW), волны Рэлея, дисперсионная кривая, скорость поперечных волн, скоростной разрез
Аннотация: ИЗУЧЕНИЕ СКОРОСТНЫХ ХАРАКТЕРИСТИК ГРУНТОВ МЕТОДОМ MASW ДЛЯ ЗАДАЧ СЕЙСМИЧЕСКОГО МИКРОРАЙОНИРОВАНИЯ
Список литературы: Калинина А.В., Аммосов С.М., Тихонов А.В. Изучение верхней толщи разреза методом многоканального анализа поверхностных волн на Звенигородском учебном полигоне МГУ им. М.В. Ломоносова // Инженерные изыскания. 2012. № 11. С. 36-41.
Овсюченко А.Н., Калинина А.В., Аммосов С.М., Вакарчук Р.Н., Новиков С.С., Ларьков А.С., Мараханов А.В. Использование сейсморазведки методом MASW в сейсмотектонических исследованиях (на примере Дальнего Востока России) // Инженерные изыскания. 2013. № 2. С. 38-48.
BSSC (Building Seismiv Safety Counsil). NEHRP recommended provisions for seismic regulations for new buildings and other structures. 2000 ed. Pt. 1: Provisions. Washington, D.C., 2003. 303 p.
Brown L.T., Diehl J.G., Nigbor R.L. A simplified procedure to measure average shear-wave velocity to a depth of 30 meters (VS30) // Proc. of the 12th World conference on earthquake engineering, Auckland, New Zealand, February 2000. Auckland, 2000.
Foti S., Lai C.G., Rix G., Roma V. Simultaneous measurement and inversion of surface wave dispersion and attenuation curves // Soil Dyn. and Earthquake Eng. 2002. V. 22. Р. 923-930.
Hayashi K., Suzuki H. CMP crosscorrelation analysis of multichannel surface-wave data // Explor. Geoph. 2004. V. 35. Р. 7-13.
Martin A.J., Diehl J.G. Practical experience using a simplified procedure to measure average shear-wave velocity to a depth of 30 meters (VS30) // 13th World conference on earthquake engineering, Vancouver, B.C., Canada, August 1-6, 2004. Vancouver, 2004. Paper N 952.
Miller J.X., Park C.B., Ivanov J.M. Multichannel analysis of surface waves to map bedrock // Lead. Edge. 1999. V. 18, N 12. P. 1392-1396.
Nazarian S., Stokoe II K.H., Hudson W.R. Use of spectral analysis of surface waves method for determination of moduli and thicknesses of pavement systems // Transp. Res. Rec. 1983. V. 930. P. 38-45.
Park C.B., Xia J., Miller R.D. Imaging dispersion curves of surface waves on multi-channel record // 68th Ann. intern. meeting, Soc. Expl. Geophys: Expanded Abstr. 1998. P. 1377-1380.
Park C.B., Miller R.D., Xia J. Offset and resolution of dispersion curve in multichannel analysis of surface waves (MASW) // Proc. of the SAGEEP 2001, Denver, Colorado. Denver, 2001. P. SSM4.
Park C.B., Miller R.D., Miura H. Optimum field parameters of an MASW survey [Exp. Abs.] // SEG-J, Tokyo, May 22-23, 2002. Tokyo, 2002.
Roma V. Soil properties and site characterization by means of Rayleigh waves: PhD Thes. Politecnico di Torino, 2001.
Roma V. Automated inversion of Rayleigh geometrical dispersion relation for geotechnical soil identification // 3rd World conference on structural control, Como, 7-12 April, 2002. Como, 2002.
Roma V. Sesmic characterization of soils by means of MASW method [manual]. 2007. URL: www.masw.it
Roma V., Pescatore M. Environmental impact caused by high speed train vibrations // Intern. geotech. conf. «Soil-structure interaction: calculation methods and engineering practice», St. Petersburg, 26-28 May, 2005. St.P., 2005.
Suto K. Multichannel analysis of surface waves (MASW) for investigation of ground competence: an introduction // Eng. Advances in Earthworks: Proc. of the Sydney Chapter 2007 Symp. Sydney: Austr. Geomech. Soc. 2007. P. 71-81.
Овсюченко А.Н., Калинина А.В., Аммосов С.М., Вакарчук Р.Н., Новиков С.С., Ларьков А.С., Мараханов А.В. Использование сейсморазведки методом MASW в сейсмотектонических исследованиях (на примере Дальнего Востока России) // Инженерные изыскания. 2013. № 2. С. 38-48.
BSSC (Building Seismiv Safety Counsil). NEHRP recommended provisions for seismic regulations for new buildings and other structures. 2000 ed. Pt. 1: Provisions. Washington, D.C., 2003. 303 p.
Brown L.T., Diehl J.G., Nigbor R.L. A simplified procedure to measure average shear-wave velocity to a depth of 30 meters (VS30) // Proc. of the 12th World conference on earthquake engineering, Auckland, New Zealand, February 2000. Auckland, 2000.
Foti S., Lai C.G., Rix G., Roma V. Simultaneous measurement and inversion of surface wave dispersion and attenuation curves // Soil Dyn. and Earthquake Eng. 2002. V. 22. Р. 923-930.
Hayashi K., Suzuki H. CMP crosscorrelation analysis of multichannel surface-wave data // Explor. Geoph. 2004. V. 35. Р. 7-13.
Martin A.J., Diehl J.G. Practical experience using a simplified procedure to measure average shear-wave velocity to a depth of 30 meters (VS30) // 13th World conference on earthquake engineering, Vancouver, B.C., Canada, August 1-6, 2004. Vancouver, 2004. Paper N 952.
Miller J.X., Park C.B., Ivanov J.M. Multichannel analysis of surface waves to map bedrock // Lead. Edge. 1999. V. 18, N 12. P. 1392-1396.
Nazarian S., Stokoe II K.H., Hudson W.R. Use of spectral analysis of surface waves method for determination of moduli and thicknesses of pavement systems // Transp. Res. Rec. 1983. V. 930. P. 38-45.
Park C.B., Xia J., Miller R.D. Imaging dispersion curves of surface waves on multi-channel record // 68th Ann. intern. meeting, Soc. Expl. Geophys: Expanded Abstr. 1998. P. 1377-1380.
Park C.B., Miller R.D., Xia J. Offset and resolution of dispersion curve in multichannel analysis of surface waves (MASW) // Proc. of the SAGEEP 2001, Denver, Colorado. Denver, 2001. P. SSM4.
Park C.B., Miller R.D., Miura H. Optimum field parameters of an MASW survey [Exp. Abs.] // SEG-J, Tokyo, May 22-23, 2002. Tokyo, 2002.
Roma V. Soil properties and site characterization by means of Rayleigh waves: PhD Thes. Politecnico di Torino, 2001.
Roma V. Automated inversion of Rayleigh geometrical dispersion relation for geotechnical soil identification // 3rd World conference on structural control, Como, 7-12 April, 2002. Como, 2002.
Roma V. Sesmic characterization of soils by means of MASW method [manual]. 2007. URL: www.masw.it
Roma V., Pescatore M. Environmental impact caused by high speed train vibrations // Intern. geotech. conf. «Soil-structure interaction: calculation methods and engineering practice», St. Petersburg, 26-28 May, 2005. St.P., 2005.
Suto K. Multichannel analysis of surface waves (MASW) for investigation of ground competence: an introduction // Eng. Advances in Earthworks: Proc. of the Sydney Chapter 2007 Symp. Sydney: Austr. Geomech. Soc. 2007. P. 71-81.
