Waveform Cross-Correlation-Based Methods in Observational Seismology [Poster]
Recent developments in observational seismology rely heavily on the mining of increasingly large datasets through waveform cross-correlation-based techniques to improve signal to noise ratios and extract useful information from continuous seismograms. These include obtaining accurate differential arrival times with waveform correlation analysis for accurate earthquake relocation and 3D seismic tomography, detecting low-magnitude events using array-based waveform matching, extracting empirical Green’s functions (e.g., surface and body waves) from cross-correlation of continuous ambient noise waveform and creating virtual sources or receivers from cross-correlating earthquake coda waveforms. In this session, we welcome both methodologically and observationally focused contributions that utilize correlation-based methods to detect repeating earthquakes near creeping faults and volcanoes, relocate microearthquakes and low-frequency earthquakes around seismically active regions and image subsurface structures and monitor their temporal changes with ambient noise and earthquake coda correlation techniques. We hope to provide a platform for discussing how to efficiently apply correlation-based methods to ultra-dense arrays and long-duration continuous waveforms to better extract useful seismic events and image subsurface structures.
Conveners
Zhigang Peng, Georgia Institute of Technology (zpeng@gatech.edu); Esteban J. Chaves, Volcanological and Seismological Observatory of Costa Rica, Universidad Nacional (esteban.j.chaves@una.cr); Marine Denolle, Harvard University (mdenolle@g.harvard.edu); William Frank, University of Southern California (wbfrank@usc.edu); Taka'aki Taira, Berkeley Seismology Laboratory, University of California, Berkeley (taira@berkeley.edu); Haijiang Zhang, University of Science and Technology of China (zhang11@ustc.edu.cn)
Poster Presentations
| Participant Role | Details | Action |
|---|---|---|
| Submission | Ambient Noise Tomography of the Tanlu Fault, Eastern China Using Local Dense Seismic Array | View |
| Submission | Regional Crustal Imaging by Multi-Mode Inversion of Surface Wave Dispersion Curves | View |
| Submission | Crustal Structures Revealed by Seismic Interfrometry Beneath the North China Craton and Central Asian Orogenic Belt | View |
| Submission | The Structure Changes in Longmenshan Fault Zone from Time-Lapse Tomography and GPS Observations | View |
| Submission | Classification and Noise Correlation of Local Wind Turbine Signals in Grant County Oklahoma | View |
| Submission | Live Lagged Correlation for Event Detection | View |
| Submission | Low Magnitude Seismicity in the Vicinity of the North Korean Test Site | View |
| Submission | Systematic Exploration of Long-Period Seismicity During the 2004–2006 Mount St. Helens Volcanic Unrest | View |
| Submission | Recursive Detection of Swarms of Volcanic Long-Period Seismicity in Marie Byrd, Antarctica | View |
| Submission | Spatio-Temporal Changes of Microseismicity in Taiwan Around the 2009 Typhoon Morakot | View |
| Submission | Triggering of Deep Low-Frequency Earthquakes Along the Parkfield-Cholame Section of the San Andreas Fault by the 2019 M7.1 Ridgecrest and Other Recent Earthquakes | View |
| Submission | Spatiotemporal Evolution of Microseismicity and Repeating Earthquakes in Haiti | View |
Waveform Cross-Correlation-Based Methods in Observational Seismology [Poster]
Description