2014
DOI: 10.1190/geo2013-0404.1
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Picking versus stacking in a modern microearthquake location: Comparison of results from a surface passive seismic monitoring array in Oklahoma

Abstract: We present location results for a group of ∼200 microearthquakes that occurred in 2012 in a region of Oklahoma hosting ongoing exploration activities. Using a local passive surface seismic monitoring network of 15 broadband stations, we applied two modern location techniques that use fundamentally different approaches. The first is a pick-based double-difference relocation method with waveform crosscorrelation. Multipleevent location techniques such as these are generally regarded as the best approach for obta… Show more

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Cited by 44 publications
(35 citation statements)
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“…For example, the imaging resolution or distribution can also provide preliminary knowledge about the location uncertainty (Anikiev et al, ; Kao & Shan, ), and the Bootstrap or Jackknife method can help to extract some statistical information of the location results from waveform‐based methods (Grigoli et al, ; L. Li et al, ). According to several existing studies for PWS, the estimated location uncertainty ranges from tens of meters to about 200 m, which are comparable to the corresponding prevailing wavelengths (Grigoli et al, ; Pesicek et al, ; L. Li et al, ).…”
Section: Challenges and Perspectivesmentioning
confidence: 72%
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“…For example, the imaging resolution or distribution can also provide preliminary knowledge about the location uncertainty (Anikiev et al, ; Kao & Shan, ), and the Bootstrap or Jackknife method can help to extract some statistical information of the location results from waveform‐based methods (Grigoli et al, ; L. Li et al, ). According to several existing studies for PWS, the estimated location uncertainty ranges from tens of meters to about 200 m, which are comparable to the corresponding prevailing wavelengths (Grigoli et al, ; Pesicek et al, ; L. Li et al, ).…”
Section: Challenges and Perspectivesmentioning
confidence: 72%
“…One potential solution is adding perturbations to the theoretical traveltime table. Given the short development course of waveform‐based methods and the difference of location uncertainty estimation between the two types of methods, more systematic benchmarking studies of seismic source location algorithms are in demand, though several recent comparisons of microseismic waveform‐based and traveltime‐based location algorithms can be found in recent literature (e.g., Pesicek et al, ; Trojanowski & Eisner, ; L. Li et al, ; Wuestefeld et al, ; Grigoli, Scarabello, et al, ). Note that full waveform‐based methods have more sources of uncertainty from, for example, density, S wave velocity, and attenuation models.…”
Section: Challenges and Perspectivesmentioning
confidence: 99%
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