Source‐Independent Passive Seismic Reverse‐Time Structure Imaging With Grouping Imaging Condition: Method and Application to Microseismic Events Induced by Hydraulic Fracturing

Lin, Yun; Zhang, Haijiang; Chen, Yukuan; Li, Junlun

doi:10.1029/2019jb018043

Cited by 11 publications

(5 citation statements)

References 47 publications

(67 reference statements)

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“…Zhang et al, 2009b). Recently, Lin et al (2020) proposed a source-independent elastic reverse-time seismic imaging method to delineate hydraulic fractures using converted waves originating from the fractures or layer interfaces.…”

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confidence: 99%

Ambient Noise Surface Wave Reverse Time Migration for Fault Imaging

et al. 2020

JGR Solid Earth

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Faults are basic components of subsurface structures that represent discontinuities in physical properties. In addition to being the controlling factor of major tectonic earthquakes (e.g., Angelier, 1990; Martin et al., 2016; Sibson, 1983), subsurface faults also play an essential role in natural resources, including hydrocarbon accumulation and formation of oil and gas reservoirs (Aydin, 2000), aggregation of metallic ore deposits (e.g., Goldfarb et al., 2005; Spencer & Welty, 1986), and generation of geothermal reservoirs (Chen & Huang, 2015). Therefore, detailed characterization of subsurface faults is crucial for understanding tectonic activities and for exploring natural resources. Many geophysical approaches for fault delineation have been proposed in the past decades, such as gravity, magnetic, electromagnetic, and seismic methods (e.g.,

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confidence: 99%

Ambient Noise Surface Wave Reverse Time Migration for Fault Imaging

et al. 2020

JGR Solid Earth

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“…for detecting the discontinuities through zero-lag cross-correlation between the P and S modes decomposed from the extrapolated vector fields (Lin et al, 2020;T. Zhu, 2019).…”

Section: Methodsmentioning

confidence: 99%

“…for detecting the discontinuities through zero‐lag cross‐correlation between the P and S modes decomposed from the extrapolated vector fields (Lin et al., 2020; T. Zhu, 2019). The resulting band‐limited image I ( x ) robustly presents depth and topography of an interface but cannot provide correct amplitude for a quantitative characterization of the elastic discontinuities.…”

Section: Methodsmentioning

confidence: 99%

Three‐Dimensional Teleseismic Elastic Reverse‐Time Migration With Deconvolution Imaging Condition and Its Application to Southwest Japan

Zou,

Cheng,

Wang

et al. 2024

Geophysical Research Letters

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We have developed a novel deconvolution‐based reverse time migration method to image lithospheric structures using teleseismic data recorded by dense seismic arrays. Unlike traditional approaches that rely on the retrieval of Green's functions (or receiver functions), the new method directly utilizes the recorded three‐component (3‐C) seismic waveforms to reconstruct subsurface wavefields, which has the advantage of avoiding the estimation and removal of source time function. Importantly, it enables the asymptotic estimation of P‐to‐S transmission conversion coefficients at the elastic discontinuities and enhances resolving power for the fine‐scale heterogeneities. Taking these improvements, we have obtained a full three‐dimensional (3‐D) high‐resolution image of the subduction zone beneath southwest Japan. This image provides a comprehensive configuration of the severely deformed subducting plate beneath the Kii Channel and Kinki Peninsula.

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“…Among microseismic imaging methods based on the wave equation, Gajewski and Tessmer (2005) propose the time‐reversal imaging method by solving the wave equation given an input velocity model to track the earthquake location and perform focal mechanism inversion. Appropriate imaging conditions are critical factors affecting the accuracy and resolution of imaging results (Yuan et al ., 2020; Lin et al ., 2020). Besides, the low SNR of microseismic data makes it more demanding for imaging conditions.…”

Section: Introductionmentioning

confidence: 99%

High‐resolution and robust microseismic grouped imaging and grouping strategy analysis

Huang

Chen

Saad

et al. 2022

Geophysical Prospecting

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As an advanced real-time monitoring technique, microseismic source-location imaging provides valuable information during hydraulic fracturing, for example, the development of fracture networks and the effective reservoir reconstruction volume. However, microseismic data always suffer from weak induced energy and susceptibility to noise interference. In the case of a low signal-to-noise ratio, it is extremely challenging to perform robust microseismic imaging. Here, we first introduce several state-of-theart imaging conditions and two hybrid imaging conditions, which are followed by a detailed analysis of the impact of different grouping strategies. Then, we briefly analyse the sensitivity of different imaging conditions to noise using a one-dimensional signal. Next, several benchmark models, including two-dimensional Marmousi-II and three-dimensional SEG Advanced Modeling, are used as numerical examples for testing the passive-source imaging algorithms. Finally, three-dimensional real microseismic data are used to further investigate the impact of the grouping strategy on the imaging. The numerical examples and field data demonstrate the effectiveness of the proposed grouping strategy for the grouped imaging conditions.

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Source‐Independent Passive Seismic Reverse‐Time Structure Imaging With Grouping Imaging Condition: Method and Application to Microseismic Events Induced by Hydraulic Fracturing

Cited by 11 publications

References 47 publications

Ambient Noise Surface Wave Reverse Time Migration for Fault Imaging

Ambient Noise Surface Wave Reverse Time Migration for Fault Imaging

Three‐Dimensional Teleseismic Elastic Reverse‐Time Migration With Deconvolution Imaging Condition and Its Application to Southwest Japan

High‐resolution and robust microseismic grouped imaging and grouping strategy analysis

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