| Инд. авторы: | Bodyakin E.V., Peretokin S.A., Simonov K.V. |
| Заглавие: | Evaluation of seismic hazard using seismic microzonation techniques |
| Библ. ссылка: | Bodyakin E.V., Peretokin S.A., Simonov K.V. Evaluation of seismic hazard using seismic microzonation techniques // CEUR Workshop Proceedings. - 2017. - Vol.1839. - P.16-25. - ISSN 1613-0073. |
| Внешние системы: | РИНЦ: 30110611; SCOPUS: 2-s2.0-85020527287; |
| Реферат: | eng: It was shown the technique of seismic hazard assessment based on comprehensive use of methods of seismic microzonation. This technique consists of four steps. The first step is to collect geological, seismological, geophysical and topographic information. Each layer according to geological engineering survey and geophysical work are assigned physical and mechanical properties (density, limit shear stress) and the P-And S- wave velocity. Next (step 2) after visualization and examination input data using GIS technologies 3D modelling of the geological environment is performed (it is created a grid each point of which is referred to coordinates of the site). The number and depth of soil are set in each point based on geological drilling data. Then (step 3) at each point seismic intensity are calculated using instrumental methods including the method of acoustic impedance and computer simulation (GRUNT program). At the last stage according to the analysis of the results of theoretical and instrumental methods seismic microzonation map are created using GIS technologies. The procedure of constructing maps uses different methods of selection areas with the same seismic hazard (kriging, spline interpolation). |
| Ключевые слова: | Earthquake; GIS; Seismic intensity; Seismic microzoning; Acoustic impedance; Data visualization; Density (specific gravity); Earthquakes; Geographic information systems; Geology; Geophysics; Hazards; Interpolation; Seismic response; Shear stress; Shear waves; Three dimensional computer graphics; Wave propagation; Geological environment; P- and S-wave velocities; Physical and mechanical properties; Seismic hazard assessment; Seismic intensity; Seismic microzonation; Seismic microzoning; Topographic information; Seismology; Shear flow; |
| Издано: | 2017 |
| Физ. характеристика: | с.16-25 |
| Конференция: | Название: Международная конференция «Математические и информационные технологии, MIT-2016» Аббревиатура: MIT-2016 Город: Врнячка Баня, Будва Страна: Сербия, Черногория Даты проведения: 2016-08-28 - 2016-09-05 Ссылка: http://conf.nsc.ru/MIT-2016 |
| Цитирование: | 1. Zaalishvili VB. Seismic Microzonation of Urban Territories, Settlements and Large Building Sites 2009:350. 2. RSN 60-86 Engineering survey for building. Seismic microzonation. Standards of production work 3. Boore DM. Simulation of ground motion using the stochastic method. Pure Appl Geophys 2003;160(3-4):635-676. 4. Boore DM. SMSIM-Fortran programs for simulating ground motions from earthquakes: Version 1.0. U.S.Geol.Surv.Open-File Rept.96-80-A 1996:73. 5. Aptikaev FF. Instrumental Scale of Seismic Intensity 2012:175. |
