Imaging of Near-seabed Shear Wave Velocity Structure in Beach and Shallow Sea Based on Fiber Optic Sensor Array

Citation

Zhang, Hanyu, and Shiguo Wu. (2020). 基于传感光纤阵列的滩浅海表层横波速度结构成像 [Imaging of Near-seabed Shear Wave Velocity Structure in Beach and Shallow Sea Based on Fiber Optic Sensor Array]. 中国地球科学联合学术年会 2020 (China Geoscience Union Annual Meeting 2020), 3766.

Keywords

• 传感光纤阵列 (Fiber Optic Sensor Array)
• 滩浅海 (Beach and Shallow Sea)
• 表层横波速度结构成像 (Imaging of Near-seabed Shear Wave Velocity Structure)
• Extreme-Shallow Waters (ESW)
• research vessels (R/V)
• single-channel seismic streamers
• multi-channel seismic streamers
• Distributed Acoustic Sensing (DAS)
• seismic activity monitoring
• seafloor faults
• ocean dynamics
• dark fiber
• earthquake detection
• submarine cables
• microseismic sources
• wave propagation
• glaciated terrain
• teleseisms
• active source
• methane gaseous detonation

Brief

This article discusses the use of fiber optic sensor arrays for imaging the near-seabed shear wave velocity structure in beach and shallow sea environments.

Summary

This article focuses on using fiber optic sensor arrays for imaging the near-seabed shear wave velocity structure in beach and shallow sea environments (Extreme-Shallow Waters), highlighting the potential of Distributed Acoustic Sensing (DAS) in these challenging areas compared to traditional methods using research vessels.

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