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1.
Modeling with optimization in waveimpedance inversion (by Xia Hongrui) Xia Hongrui, et. al., pointed out that wave impedanceinversion from seismic data is generally done by solvingequations with two unknowns. However, ill-posed equa-tions cause ill-posed solutions. To overcome this problem,firstly, an initial model is established according to the seis-mic data and well-logging. It is then regarded as the ini-tial solution. The equations are solved by solutionoptimization. In this perspective… 相似文献
2.
The development of seismic wave study in China in the past four years is reviewed. The discussion is divided into several aspects, including seismic wave propagation in laterally homogeneous media, laterally heterogeneous me-dia, anisotropie and porous media, surface wave and seismic wave inversion, and seismic wave study in prospect-ing and logging problems. Important projects in the current studies on seismic wave is suggested as the develop-ment of high efficient numerical methods, and applying them to the studies of excitation and propagation of seis-mic waves in complex media and strong ground motion, which will form a foundation for refined earthquake haz-ard analysis and prediction. 相似文献
3.
This paper makes a summary of status of delimitation of seismic zones and belts of China firstly in aspects of studying history,purpose,usage,delimiting principles,various presenting forms and main spectialties.Then the viewpoints are emphasized,making geographical divisions by seismicity is just the most important purpose of delimiting seismic belts and the concept of seismic belt is also quite different from that of seismic statistical zone used in CPSHA method.The concept of seismic statistical zone and its history of evolvement are introduced too.Large differences between these two concepts exist separately in their statistical property,actual meaning,gradation,required scale,and property of refusing to overlap each other,aim and usage of delimitation.But in current engineering practice,these two concepts are confused.On the one hand,it causes no fit theory for delimiting seismic statistical zone in PSHA to be set up;on the other hand,researches about delimitation of seismic belts with purposes of seismicity zoning and studying on structural environment,mechanism of earthquake generating also paues to go abead.Major conclusions are given in the end of this paper,that seismic statistical zone bases on the result of seismic belt delimiting,it only arises in and can be used in the especial PSHA method of China with considering spatially and termporally inhomogeneous seismic activities,and its concept should be clearly differentiated from the comcept of seismic belt. 相似文献
4.
During the period of 1999-2002, the Chinese seismologists made a serious of developments in the study on seis-mic sources including observations, experiments and theory. In the field of observation, the methods of the accu-racy location of earthquake sources, the inversion of seismic moment tensor and the mechanism of earthquake source are improved and developed. A lot of important earthquake events are studied by using these methods. The rupture processes of these events are inverted and investigated combined with the local stress fields and the tec-tonic moment by using the measurements of surface deformation. In the fields of experiments and theory, many developments are obtained in cause of seismic formation, condition of stress and tectonics, dynamics of earthquake rupture, rock fracture and nucleation of strong earthquakes. 相似文献
5.
In the paper, we have discovered the abnormal area distribution features of maximum variation values of ground motion parameter uncertainty with different probabilities of exceedance in 50 years within the range of 100°~120°E,29°~42°N for the purpose to solve the problem that abnormal areas of maximum variation values of ground motion parameter uncertainties emerge in a certain cities and towns caused by seismicity parameter uncertainty in a seismic statistical region in an inhomogeneous distribution model that considers tempo-spatial nonuniformity of seismic activity. And we have also approached the interrelation between the risk estimation uncertainty of a site caused by seismicity parameter uncertainty in a seismic statistical region and the delimitation of potential sources, as well as the reasons for forming abnormal areas. The results from the research indicate that the seismicity parameter uncertainty has unequal influence on the uncertainty of risk estimation at each site in a statistical region in the inhomogeneous distribution model, which relates to the scheme for delimiting potential sources. Abnormal areas of maximum variation values of ground motion parameter uncertainty often emerge in the potential sources of Mu≥8 (Mu is upper limit of a potential source) and their vicinity. However, this kind of influence is equal in the homogeneous distribution model. The uncertainty of risk estimation of each site depends on its seat. Generally speaking, the sites located in the middle part of a statistical region are only related to the seismicity parameter uncertainty of the region, while the sites situated in or near the juncture of two or three statistical regions might be subject to the synthetic influences of seismicity parameter uncertainties of several statistical regions. 相似文献
6.
Research on seismic stress triggering 总被引:6,自引:0,他引:6
Introduction What is called seismic stress triggering refers to that stress change tensor produced by previous earthquake projected on the fault plane and slip direction of subsequent earthquakes, taking into account normal stress, pore pressure and friction coefficient, and Coulomb failure stress change DCFS can be obtained. If the direction of Coulomb failure stress changes are consistent with slip direction of subsequent seismic mechanism, e.g., Coulomb failure stress changes are positive… 相似文献
7.
Study of crustal seismic velocity in the Weihe fault depression basin by seismic tomographic imaging
StudyofcrustalseismicvelocityintheWeihefaultdepresionbasinbyseismictomographicimagingGUANGYINGXUE1)(薛广盈)YUNYUDING2)(丁韫玉)ZH... 相似文献
8.
Parametersensitivityanalysesinseismichaz┐ardJIANWANG(王健)andMENG-TANGAO(高孟潭)InstituteofGeophysics,StateSeismologicalBureau,Be... 相似文献
9.
RediscussionontheseismicregimenetworkZe-GaoWANG(王泽皋);Pei-QingSUN(孙佩卿);Jing-ChunGAO(高景春);Shu-LianLI(李淑莲);XueZHANG(张雪)andYanGUO... 相似文献
10.
冯义钧 《地震学报(英文版)》2002,(2)
In the seismological field, attention paid to the problem concerning the normalization of seismic quantities and their units has not been enough all along. In different countries, different seismological organizations and different academic periodicals, seismic quantities and their units are used according to different rules and are expressed in different forms. Some of such examples include that some units unapproved by the International Conference on (CGPM) and some units that can not be u… 相似文献
11.
BinomialmodelonseismicriskanalysisJianWANG(王健)andZhen-LiangSHI(时振梁)(InstituteofGeophysics,StateSeismologicalBureau,Beijing100... 相似文献
12.
Cepstrum analysis of seismic source characteristics 总被引:1,自引:0,他引:1
This paper introduces the concept of cepstrum.By investigating the difference in source characteristics between earthquakes and explosions the paper infers the manifestation of source difference in various variable domains,and seeks for effective means to express such source difference.Extending the approach of source discrimination from time and frequency domain to the cepstrum domain,the paper proposes a method of cepstrum analysis for recognizing the characteristics of seismic sources and establishes criteria for identifying the type of seismic sources.Cepstrum analysis on some recent earthquakes and explosions has been made,and the result shows that the method is quite effective in practice. 相似文献
13.
A genetic algorithm of body waveform inversion is presented for better understanding of crustal and upper mantle structures with deep seismic sounding (DSS) waveform data. General reflection and transmission synthetic seismogram algorithm, which is capable of calculating the response of thin alternating high and low velocity layers, is applied as a solution for forward modeling, and the genetic algorithm is used to find the optimal solution of the inverse problem. Numerical tests suggest that the method has the capability of resolving low-velocity layers, thin alternating high and low velocity layers, and noise suppression. Waveform inversion using P-wave records from Zeku, Xiahe and Lintao shots in the seismic wide-angle reflection/refraction survey along northeastern Qinghai-Xizang (Tibeteau) Plateau has revealed fine structures of the bottom of the upper crust and alternating layers in the middle/lower crust and topmost upper mantle. 相似文献
14.
Studyofa3DseismicgapYUANQINGZHU1)(朱元清)CONGJUNXIA1)(夏从俊)GETUZUOLI2)(左力格图)HUIMINLI1)(李慧民)1)SeismologicalBureauofShanghai,... 相似文献
15.
Velocity structure and active fault of Yanyuan-Mabian seismic zone—The result of high-resolution seismic refraction experiment 总被引:3,自引:0,他引:3
FuYun Wang YongHong Duan ZhuoXin Yang ChengKe Zhang JinRen Zhao JianShi Zhang XianKang Zhang QiYuan Liu AiLan Zhu XiWei Xu BaoFeng Liu 《中国科学D辑(英文版)》2008,51(9):1284-1296
The authors processed the seismic refraction Pg-wave travel time data with finite difference tomography method and revealed
velocity structure of the upper crust on active block boundaries and deep features of the active faults in western Sichuan
Province. The following are the results of our investigation. The upper crust of Yanyuan basin and the Houlong Mountains consists
of the superficial low-velocity layer and the deep uniform high-velocity layer, and between the two layers, there is a distinct,
and gently west-dipping structural plane. Between model coordinates 180–240 km, P-wave velocity distribution features steeply
inclined strip-like structure with strongly non-uniform high and low velocities alternately. Xichang Mesozoic basin between
240 and 300 km consists of a thick low-velocity upper layer and a high-velocity lower layer, where lateral and vertical velocity
variations are very strong and the interface between the two layers fluctuates a lot. The Daliang Mountains to the east of
the 300 km coordinate is a non-uniform high-velocity zone, with a superficial velocity of approximately 5 km/s. From 130 to
150 km and from 280 to 310 km, there are extremely distinct deep anomalous high-velocity bodies, which are supposed to be
related with Permian magmatic activity. The Yanyuan nappe structure is composed of the superficial low-velocity nappe, the
gently west-dipping detachment surface and the deep high-velocity basement, with Jinhe-Qinghe fault zone as the nappe front.
Mopanshan fault is a west-dipping low-velocity zone, which extends to the top surface of the basement. Anninghe fault and
Zemuhe fault are east-dipping, tabular-like, and low-velocity zones, which extend deep into the basement. At a great depth,
Daliangshan fault separates into two segments, which are represented by drastic variation of velocity structures in a narrow
strip: the west segment dips westward and the east segment dips eastward, both stretching into the basement. The east margin
fault of Xichang Mesozoic basin features a strong velocity gradient zone, dipping southwestward and stretching to the top
surface of the basement. The west-dipping, tabular-like, and low-velocity zone at the easternmost segment of the profile is
a branch of Mabian fault, but the reliability of the supposition still needs to be confirmed by further study. Anninghe, Zemuhe
and Daliangshan faults are large active faults stretching deep into the basement, which dominate strong seismic activities
of the area.
Supported by the National Basic Research Program of China (Grant No. 2004CB428400) 相似文献
16.
《中国科学D辑(英文版)》2008,(9)
The authors processed the seismic refraction Pg-wave travel time data with finite difference tomography method and revealed velocity structure of the upper crust on active block boundaries and deep features of the active faults in western Sichuan Province. The following are the results of our investigation. The upper crust of Yanyuan basin and the Houlong Mountains consists of the superficial low-velocity layer and the deep uniform high-velocity layer, and between the two layers, there is a distinct, and gently west-dipping structural plane. Between model coordinates 180-240 km, P-wave velocity distribution features steeply inclined strip-like structure with strongly non-uniform high and low velocities alternately. Xichang Mesozoic basin between 240 and 300 km consists of a thick low-velocity upper layer and a high-velocity lower layer, where lateral and vertical velocity variations are very strong and the interface between the two layers fluctuates a lot. The Daliang Mountains to the east of the 300 km coordinate is a non-uniform high-velocity zone, with a superficial velocity of approximately 5 km/s. From 130 to 150 km and from 280 to 310 km, there are extremely distinct deep anomalous high-velocity bodies, which are supposed to be related with Permian magmatic activity. The Yanyuan nappe structure is composed of the superficial low-velocity nappe, the gently west-dipping detachment surface and the deep high-velocity basement, with Jinhe-Qinghe fault zone as the nappe front. Mopanshan fault is a west-dipping low-velocity zone, which extends to the top surface of the basement. Anninghe fault and Zemuhe fault are east-dipping, tabular-like, and low-velocity zones, which extend deep into the base-ment. At a great depth, Daliangshan fault separates into two segments, which are represented by drastic variation of velocity structures in a narrow strip: the west segment dips westward and the east segment dips eastward, both stretching into the basement. The east margin fault of Xichang Mesozoic basin features a strong velocity gradient zone, dipping southwestward and stretching to the top surface of the basement. The west-dipping, tabular-like, and low-velocity zone at the easternmost segment of the profile is a branch of Mabian fault, but the reliability of the supposition still needs to be confirmed by further study. Anninghe, Zemuhe and Daliangshan faults are large active faults stretching deep into the basement, which dominate strong seismic activities of the area. 相似文献
17.
Shengsi SUN Yunpeng DONG Yixi LI Yihai YANG Chao CHENG Bo HUI Bin ZHANG Rutao ZANG 《中国科学:地球科学(英文版)》2024,(1):31-60
Rheology of rocks controls the deformation of the Earth at various space-time scales, which is crucial to understand the tectonic evolution of continental lithosphere. Researches of rock rheology are mainly conducted via high-pressure and hightemperature rheological experiments and multi-scale observations and measurements of naturally deformed rocks. At present, a large amount of data from such kinds of studies have been accumulated. This paper first provides an up-to-date comprehensive review ... 相似文献
18.
Introduction The research on the structure and physical property of ancient hidden hill, igneous rocks and basement is relatively difficult by using seismic data only. If we combine seismic data, magneto-telluric (MT) data and geophysical data together, better results can be obtained for the above problem. A number of geophysicists at home and abroad, such as CHEN and WANG (1990), Siri-punvarapor and Egbert (2000) have tried many methods to solve the problem by the inversion of seismic da… 相似文献
19.
高孟潭 《地震学报(英文版)》2003,16(6):639-645
1 Background of the new national seismic zoning map The policy of seismic disaster mitigation in the Chinese mainland is prevention first. According to the law, the earthquake design for ordinary structures must fit the demand of national seismic zoning map. Seismic zoning map is the basis of the earthquake design (TANG, 1998; WU, et al, 1998). The seismic zoning map must be updated with the progress in methodology and accumula-tion of the data. There are three generations of national seis… 相似文献
20.