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Poster
S21D: Geophysical Advances with Distributed Fiber-Optic Sensing IV Poster

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Hall EFG (Poster Hall)

NOLA CC

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Primary Convener:
Jiaxuan Li, University of Houston

Convener:
Qibin Shi, Rice University
Ethan Williams, University of California Santa Cruz
Qiushi Zhai, California Institute of Technology
Yan Yang, University of California San Diego
Loïc Viens, Los Alamos National Laboratory
Glenn Baker, AFRL/RVBYE
Robert Porritt, Sandia National Laboratories
Michal Chamarczuk, Rice University

Chair:
Qibin Shi, Rice University
Ethan Williams, University of California Santa Cruz
Qiushi Zhai, California Institute of Technology
Yan Yang, University of California San Diego

Fiber-optic sensing technologies, particularly Distributed Acoustic Sensing (DAS), are transforming geophysics by enabling dense, long-range, long-duration, and cost-effective sensing across diverse environments. We invite submissions on earthquake detection and early warning, source characterization, subsurface imaging, environmental monitoring, and other applications in urban areas, volcanic systems, glaciers, permafrost, underwater, boreholes, and potential planetary environments. Topics may range from high-frequency signals from marine mammals and vessel activity to lower-frequency phenomena such as internal waves, tides, tsunamis, and quasi-static deformations caused by landslides and magma intrusions. We also welcome energy and security applications, including underground explosions, geothermal production, hydrocarbon extraction, carbon sequestration, and infrastructure monitoring. Contributions on the scalability, including real-time processing, compression, and end-to-end workflows supporting large-volume data are encouraged. While DAS is the central focus of this session, we welcome exploratory work on alternative fiber-optic sensing technologies, such as long-range systems for subsea cables, polarization sensing, or transmission-based systems.

Index Terms
7215 Earthquake source observations
7294 Seismic instruments and networks
8015 Local crustal structure
8419 Volcano monitoring

Cross-Listed:
C - Cryosphere
H - Hydrology
V - Volcanology‚ Geochemistry and Petrology
OS - Ocean Sciences

Co-Organized Sessions:
Cryosphere

Neighborhoods:
2. Earth Interior
3. Earth Covering

Scientific Discipline

Neighborhood

Type

Presentations

Discussion

Jiaxuan Li

S14B-02 WITHDRAWN: A Hybrid Earthquake Detection Method for Distributed Acoustic Sensing Array Data and Its Application to the 2022 Menyuan Earthquake Sequence

S21D-0211: Characterization of road construction explosions recorded along an ocean-bottom fiber with Distributed Acoustic Sensing

S21D-0212: Distributed Acoustic Sensing Data Denoising with Deep Learning

S21D-0213 WITHDRAWN: Real-time Threat Detection And Localisation Using Existing Cables: An End-to-End ML Workflow

S21D-0214: Characterizing Natural and Anthropogenic Signals Using Dual DAS Interrogators at the EarthScope Primary Instrument Center

S21D-0215: Locating Moving Seismic Sources with Synthetic Waveforms and Back-Projection

S21D-0216: A Fiber Install of EPIC Proportion: DAS in a Semi-Arid Environment

S21D-0217: Characterizing Ambient Noise Levels for Distributed Acoustic Sensing Deployments: Developing a New DAS Noise Model

S21D-0218: Development of an LLM-based model for earthquake detection in Distributed Acoustic Sensing measurements.

S21D-0219: Seismo-Acoustic Observations of Yasur Volcano, Vanuatu with a For-Purpose Distributed Fiber-Optic Sensing Array Deployment, Containing Both Subsurface and Subaerial Components: Implications for Volcano Geohazard Monitoring.

S21D-0220: Deep Learning Denoising for Real-Time Dike Intrusion Imaging with Low-Frequency DAS Measurements

S21D-0221: Analysis of High-Resolution Seismic Scattering in the Lunar Near-Surface Using Distributed Acoustic Sensing Synthetics and Observational Analogs

S21D-0222: Toward Operational Earthquake Early Warning with DAS: Integrating Amplitude Measurements

S21D-0223: Activation of shallow tremors near the Nankai Trough after the M 7.6 Noto Peninsula earthquake observed by distributed acoustic sensing

S21D-0224: Constraining the Internal Structures of Los Angeles Basin with DAS

S21D-0225: Imaging the Near Surface Using DAS Ambient Noise Autocorrelation Functions in Central New Mexico

S21D-0226: Distributed Acoustic Sensing for Real-Time Urban Monitoring and Subsurface Response Analysis

S21D-0227: Depth-Dependent Co-seismic Velocity Changes During the Mw 7.4 2024 Hualien, Taiwan Earthquake Revealed by Distributed Acoustic Sensing

S21D-0228: Spatial and Temporal Dynamics of Ocean Surface Gravity Waves, Infragravity Waves, and Secondary Microseisms: Insights from Seafloor Distributed Acoustic Sensing in Monterey Bay

S21D-0229: Earthquake Detection and Location Using Machine Learning on Integrated Offshore Distributed Acoustic Sensing and Seismic Arrays

WITHDRAWN: Automated Mine-blast Detection Using Distributed Acoustic Sensing (DAS) and Deep Learning

[ONLINE] S21D-VR8992: DAS-Driven Seismic Event Detection and Phase picking: An End-to-End Pipeline Combining CATS and PhaseNet

[ONLINE] S21D-VR8993: DICE: DAS Interrogator Comparison Experiment