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基于局部一维模型与走时标定的区域 三维速度模型构建技术研究 总被引:1,自引:0,他引:1
构建区域介质三维速度模型并以之获得准确的区域震相走时, 是提高区域地震定位精度的重要手段之一. 为充分利用已有的一维模型、 GT事件、 地质资料等实现三维模型构建, 尝试基于目标区域内已有的部分局部一维模型, 通过克里金空间插值建立初始三维模型, 然后利用GT事件走时数据并参考其它地震地质资料对其不断进行修正, 使得其走时偏差图与GT事件走时偏差图一致, 进而获得能够提高区域地震定位精度的三维模型. 使用不同模型进行的地震定位实验表明, 以此方法建立的三维模型的定位偏差较初始模型减少约20%, 较好地起到了减小区域震相走时残差, 提高区域地震定位精度的作用. 相似文献
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利用地震走时数据,采用联合反演方法获取了江苏地区的一维P波速度模型。与仅采用初至波走时的传统天然地震走时获取方法相比,该方法充分利用了大量存在的续至波参与反演,能有效改进中下地壳的反演能力。针对地震震相目录中常存在震相标识错误的问题,采用的自动判别筛选震相方法能最大限度提高数据走时的精度,可以对不同震相进行有效区分。与其他常用一维速度模型相比,本文反演的模型对Pg、Pn震相走时拟合效果最佳,残差最小。当所用走时数据拥有较高定位精度时,该反演方法能为研究区三维速度结构成像和地震定位提供较可靠的一维速度模型。 相似文献
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通过福建及台湾海峡地区的新一维速度模型与现有华南速度模型的对比,讨论了新一维速度模型在福建地震观测台网的适用性。理论走时分析结果表明,尽管两个速度模型差异明显,但震中距在0—100 km范围内的震相理论走时相差较小,一定程度上说明两速度模型所给出的本区域地壳平均速度差异较小。对利用18次人工定点爆破记录的地震定位结果的分析表明:当震源深度不受约束时,应用华南速度模型的定位结果精度稍优于新一维速度模型;将震源深度固定为0 km后,应用新一维速度模型的定位结果精度则明显优于华南模型。对19个仙游震群序列事件进行定位的结果显示,由于华南地区速度结构的横向变化较小,应用两模型的地震定位精度结果基本相当,但新一维速度模型定位的发震时刻较华南速度模型普遍早0.61 s左右,因此使得事件定位残差显著增大。 相似文献
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本文以陕西地震台网2009年1月—2014年4月地震观测报告数据为基础,并在前人对该区域地壳速度模型研究成果的基础上,依据地震、爆破及塌陷的震相速度拟合曲线与折合走时曲线等结果,确定初始模型及扰动范围。再采用Hyposat定位程序对地震资料进行“试错”,最终确定了可供台网日常使用的地壳速度模型及各层的波速比结果,最后对模型进行了对比检验。结果表明:2015模型比1985模型的定位走时残差小,震中位置偏差减小,确定的实测爆破地震位置参数更准确。2015模型较1985模型更符合陕西地区的地质构造特征。 相似文献
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依托大庆城市活动断层探测项目,开展大庆区域地震活动性研究。筛选黑龙江省及周边662个地震事件的震相到时,修订研究区域走时模型。对研究区148个地震运用交切法和双差法重新定位,对比发现,双差定位后地震定位精度显著提高,地震空间分布更加集中,条带状更为明显,震源深度表明,研究区孕震层基本位于地壳中上部。利用震源机制解资料,对工作区现代构造应力场进行分析,认为本区域构造应力场主压应力方向为NE向,以水平走滑作用为主。 相似文献
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华南地区近震走时表(速度模型)的精度检验 总被引:1,自引:0,他引:1
利用166次地震资料,通过3种地壳速度模型的对比,按照规定的评判原则,对《华南地区近震走时表》(速度模型)对福建及其邻区的地震定位精度进行了检验.结果表明,华南地区地壳模型(走时表)比J-B模型(走时表)更适合于本区地震的定位. 相似文献
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利用2017年8月1日至2017年12月31日四川地震台网和甘肃地震台网记录到的发生在青藏高原东缘的731个地震事件的9 284条Pg震相到时数据,首先反演了该地区的“最小一维速度模型”,并将该模型和选取的速度模型建立对比模型,以九寨沟地震序列为研究目标,定量讨论了两种速度模型分别在绝对定位和相对定位方法中对定位结果的影响。所得定位结果表明:反演获得的“最小一维速度模型”在重定位中可以有效地减小地震走时均方根残差;绝对定位比相对定位更加依赖于一维速度模型,一维速度模型会直接影响绝对定位结果中的震源分布形态,但在相对定位结果中仅起到调整地震事件相对位置的作用;在地震绝对定位中,震级越大的地震对于速度模型越敏感,而这一特点在相对定位中表现得并不明显。通过本项研究可知,在地震定位研究中,联合采用绝对定位和相对定位方法是最佳策略。 相似文献
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长期地震观测发现,北京地震台实际地震记录的震相走时与全球地震走时表IASP91之间存在走时偏差。结合北京地震台及周边地下40km精细速度结构的研究成果和AK135模型,构建其地震走时表的计算模型。通过对该地震台2003--2008年NCDSN地震观测实际走时比对,对模型结构进行修正,最终建立北京地震台地震走时表。 相似文献
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ONE D AND TWO D COMBINED MODEL FOR ESTUARY SEDIMENTATION 总被引:3,自引:0,他引:3
ZHANG Shiqi 《国际泥沙研究》1999,(1)
1INTRODUCTIONThefluvialprocesinanestuaryiscomplicatedundertheactionofrunof,tidalflow,windinducedcurentandwaveetc.Especialy,... 相似文献
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2D and 3D potential-field upward continuation using splines 总被引:1,自引:0,他引:1
Bingzhu Wang † 《Geophysical Prospecting》2006,54(2):199-209
The dominant upward‐continuation technique used in the potential‐field geophysics industry is the fast Fourier transform (FFT) technique. However, the spline‐based upward‐continuation technique presented in this paper has some advantages over the FFT technique. The spline technique can be used to carry out level‐to‐uneven surface 2D and 3D potential‐field upward continuation. An example of level‐to‐uneven surface upward continuation of 3D magnetic data using the spline technique is shown, and it is evident that the continued anomalies are very close to the theoretical values. The spacing can be irregular. Synthetic examples using the spline technique to continue noise‐contaminated gravity and magnetic data upward to an altitude of 15 km on irregular grids are shown. Gaussian noise with a zero mean and a standard deviation of 1% does not cause much error and can readily be tolerated. Through comparison with the FFT technique, it is found that for low‐altitude gravity and magnetic upward continuation, both the FFT technique and the spline technique are suitable; for high‐altitude upward continuation, the FFT technique is inaccurate, whereas the spline technique works very well. Also, upward continuation by the spline technique has a smaller edge effect than upward continuation by the FFT technique. The spline‐based upward continuation technique works fairly well even when the periphery of a grid is not quiet: it is rather robust in general. A real example shows that the spline technique can be employed to perform upward continuation of total‐field magnetic data and to de‐emphasize near‐surface noise. 相似文献
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N. A. KINNEGING V. BUDEJICKY C. P. A. WAPENAAR A. J. BERKHOUT 《Geophysical Prospecting》1989,37(5):493-530
In order to make 3D prestack depth migration feasible on modern computers it is necessary to use a target-oriented migration scheme. By limiting the output of the migration to a specific depth interval (target zone), the efficiency of the scheme is improved considerably. The first step in such a target-oriented approach is redatuming of the shot records at the surface to the upper boundary of the target zone. For this purpose, efficient non-recursive wavefield extrapolation operators should be generated. We propose a ray tracing method or the Gaussian beam method. With both methods operators can be efficiently generated for any irregular shooting geometry at the surface. As expected, the amplitude behaviour of the Gaussian beam method is better than that of the ray tracing based operators. The redatuming algorithm is performed per shot record, which makes the data handling very efficient. From the shot records at the surface‘genuine zero-offset data’are generated at the upper boundary of the target zone. Particularly in situations with a complicated overburden, the quality of target-oriented zero-offset data is much better than can be reached with a CMP stacking method at the surface. The target-oriented zero-offset data can be used as input to a full 3D zero-offset depth migration scheme, in order to obtain a depth section of the target zone. 相似文献
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A new method for the 2D inversion of induced polarization (IP) data in the time domain has been developed. The entire IP transients were observed and inverted into 2D Cole-Cole earth models, including resistivity, chargeability, relaxation time and the frequency constant. Firstly, a modified 1D time-domain electromagnetic algorithm was used to calculate the response of a layered polarizable ground. The transient signals were then inverted using the Marquardt method to derive the Cole-Cole parameters of each layer. However, model calculations showed that the EM effects could be neglected for the time range (>1 ms) and for the transmitter–receiver distances (<50 m) used in this study. Therefore, the induction effects were not considered for the solution of the 2D inverse problem and a DC solution was applied. An approximative forward algorithm was introduced in order to calculate the IP transients directly in the time domain and in order to speed up the inverse procedure. The approximation is highly accurate, and this is demonstrated by comparing the approximations with their exact solutions up to 3D. The inverse algorithm presented consists of two steps. The transient voltages of an array data set were inverted separately into a two-dimensional resistivity model for each time channel. The time-dependent resistivity of each cell was then interpreted as the response of a homogeneous half-space. In the 2D inversion algorithm, a 3D DC algorithm was used as a forward operator. The method only requires a standard 2D DC inversion and a homogenous half-space Cole-Cole inversion. The developed algorithm has been successfully applied to synthetic data sets and to a field data set obtained from a waste site situated close to Düren in Germany. 相似文献
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《地震科学(英文版)》2019,(Z1)
A two and a half dimensional(2.5 D) multidomain indirect boundary element method(IBEM) is developed to study the wave scattering of obliquely incident P-, SVand SH-waves by a hill-valley staggered topography in a multi-layered half-space. The IBEM algorithm includes using2.5 D full-space and half-space Green's functions to construct scattered fields in decomposed closed and opened half-space regions, respectively, and using the dynamic stiffness method to solve the free fields. All regions are finally integrated by introducing the compatibility conditions to obtain the total wave fields. The proposed 2.5 D IBEM has the flexibility in dealing with complex boundaries by directly applying the fictitious loads on the regions' boundaries, with a less storage requirement compared to the full 3 D models. Besides, by combining the specific advantages of the two kinds of Green's functions, the method is well suitable for handling coupled topographies with high accuracy. The method is validated by comparison with published results for a single valley as well as a single hill topography. The effects of height-to-width ratio of hill and layering on dynamic responses are further parametrically investigated by numerical implementations in frequency domain. Results show that the interaction between valley and hills can lead to a more significant amplification within the valley region, and dynamic responses are deeply influenced by the height-towidth of hill, simultaneously depending on incident angle and frequency. Besides, the site effects become more complex when the stratification feature is taken into account. 相似文献