Litcius/Paper detail

Accelerating numerical wave propagation by wavefield adapted meshes. Part II: full-waveform inversion

Sölvi Thrastarson, Martin van Driel, Lion Krischer, Christian Boehm, Michael Afanasiev, Dirk‐Philip van Herwaarden, Andreas Fichtner

2020Geophysical Journal International33 citationsDOIOpen Access PDF

Abstract

SUMMARY We present a novel full-waveform inversion (FWI) approach which can reduce the computational cost by up to an order of magnitude compared to conventional approaches, provided that variations in medium properties are sufficiently smooth. Our method is based on the usage of wavefield adapted meshes which accelerate the forward and adjoint wavefield simulations. By adapting the mesh to the expected complexity and smoothness of the wavefield, the number of elements needed to discretize the wave equation can be greatly reduced. This leads to spectral-element meshes which are optimally tailored to source locations and medium complexity. We demonstrate a workflow which opens up the possibility to use these meshes in FWI and show the computational advantages of the approach. We provide examples in 2-D and 3-D to illustrate the concept, describe how the new workflow deviates from the standard FWI workflow, and explain the additional steps in detail.

Topics & Concepts

Polygon meshDiscretizationWorkflowInversion (geology)Computer scienceAlgorithmComputational scienceWaveformComputational complexity theoryMathematical optimizationGeologyMathematicsMathematical analysisComputer graphics (images)SeismologyTelecommunicationsDatabaseRadarTectonicsSeismic Imaging and Inversion TechniquesSeismic Waves and AnalysisGeophysical Methods and Applications
Accelerating numerical wave propagation by wavefield adapted meshes. Part II: full-waveform inversion | Litcius