← Back to Sessions

Robust Earthquake Location Using Random Sample Consensus (RANSAC)

Description: 

Accurate earthquake location, which determines the origin time and location of seismic events using phase arrival times or waveforms, is fundamental to earthquake monitoring. While recent deep learning advances have significantly improved earthquake detection and phase picking, particularly for smaller-magnitude events, the increased detection rate introduces new challenges for robust location determination. These smaller events often contain fewer P- and S-phase picks, making location accuracy more vulnerable to false or inaccurate picks.
To enhance location robustness against outlier picks, we propose a machine learning method that incorporates the Random Sample Consensus (RANSAC) algorithm. RANSAC employs iterative sampling to achieve robust parameter optimization in the presence of substantial outliers. By integrating RANSAC's iterative sampling into traditional earthquake location workflows, we effectively mitigate biases from false picks and improve the robustness of the location process. We evaluated our approach using both synthetic data and real data from the Ridgecrest earthquake sequence. The results demonstrate comparable accuracy to traditional location algorithms while showing enhanced robustness to outlier picks.

Session: Advances in Reliable Earthquake Source Parameter Estimation [Poster]

Type: Poster

Date: 4/16/2025

Presentation Time: 08:00 AM (local time)

Presenting Author: Weiqiang

Student Presenter: No

Invited Presentation: 

Poster Number: 39

Authors