Litcius/Paper detail

Pseudo-linear-array analysis of passive surface waves based on beamforming

Liu Ya, Jianghai Xia, Feng Cheng, Chaoqiang Xi, Chao Shen, Changjiang Zhou

2020Geophysical Journal International59 citationsDOI

Abstract

SUMMARY Linear arrays are usually deployed for passive surface-wave investigations because of their high efficiency and convenience. In populated urban areas, it is almost impossible to set up a 2-D array in terms of the restriction from the existing infrastructures. The limited azimuthal coverage, however, lacks the ability to attenuate velocity overestimation caused by directional noise sources. We came up with a novel idea to compensate the azimuthal coverage by adding two more offline receivers to a conventional linear array, which is called pseudo-linear-array analysis of passive surface waves (PLAS). We used a beamforming algorithm to capture noise sources distribution and extract accurate dispersion curves. We used array response function to explain the superiority of the pseudo-linear array over the linear array and present the basic workflow of PLAS. Synthetic tests and field examples demonstrated the feasibility of PLAS to measure unbiased dispersion image. Comparison with mostly used passive surface wave methods (refraction microtremor, multichannel analysis of passive surface waves, spatial autocorrelation method, frequency–wavenumber analysis) suggested that PLAS can serve as an alternative passive surface wave method, especially in urban areas with restricted land accessibility and short-time acquisition demands.

Topics & Concepts

BeamformingAzimuthPassive seismicDispersion (optics)Surface waveNoise (video)MicrotremorAcousticsWavenumberArray processingComputer scienceOpticsGeologyPhysicsSignal processingTelecommunicationsSeismologyImage (mathematics)Artificial intelligenceRadarSeismic Waves and AnalysisSeismology and Earthquake StudiesGeophysics and Sensor Technology