一种新的高分辨率波形偏移定位方法及其在诱发地震活动中的应用

IF 2.9 3区 地球科学 Earth and Planetary Physics Pub Date : 2021-12-21 DOI:10.26464/epp2021056
SiYu Miao, HaiJiang Zhang, YuYang Tan, Ye Lin
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引用次数: 3

摘要

定位地震事件是地震监测的核心任务。与基于到达的定位方法相比,基于波形的定位方法不需要提取相位到达,更适合于具有噪声波形的地震事件的定位。在基于波形的定位方法中,一种方法是在潜在事件位置和起源时间对应的到达时间周围叠加P波和S波的不同属性,并假设最大叠加值表示正确的事件位置和起源时间。为了获得高分辨率的定位图像,我们对基于波形的定位方法进行了改进,对地震波形的特征函数应用了混合乘法成像条件。在我们的新叠加方法中,站点被分成若干组;将同一组台站记录的地震波特征函数求和,然后在组间相乘。我们发现这种方法可以在很大程度上消除叠加过程中噪声的累积影响,从而提高位置图像的分辨率。我们对新方法进行了测试,并将其与其他三种叠加方法进行了比较,使用了与石油/天然气生产中发生的诱发地震活动相关的合成和真实数据集。测试结果表明,与现有方法相比,新的叠加方法可以提供更高分辨率的位置图像。
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Development of a new high resolution waveform migration location method and its applications to induced seismicity

Locating seismic events is a central task for earthquake monitoring. Compared to arrival-based location methods, waveform-based location methods do not require picking phase arrivals and are more suitable for locating seismic events with noisy waveforms. Among waveform-based location methods, one approach is to stack different attributes of P and S waveforms around arrival times corresponding to potential event locations and origin times, and the maximum stacking values are assumed to indicate the correct event location and origin time. In this study, to obtain a high-resolution location image, we improve the waveform-based location method by applying a hybrid multiplicative imaging condition to characteristic functions of seismic waveforms. In our new stacking method, stations are divided into groups; characteristic functions of seismic waveforms recorded at stations in the same group are summed, and then multiplied among groups. We find that this approach can largely eliminate the cumulative effects of noise in the summation process and thus improve the resolution of location images. We test the new method and compare it to three other stacking methods, using both synthetic and real datasets that are related to induced seismicity occurring in petroleum/gas production. The test results confirm that the new stacking method can provide higher-resolution location images than those derived from currently used methods.

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来源期刊
Earth and Planetary Physics
Earth and Planetary Physics GEOSCIENCES, MULTIDISCIPLINARY-
自引率
17.20%
发文量
174
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