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Communication Dans Un Congrès Année : 2022

Robust localized adaptive waveform inversion: A new regularization for Gabor deconvolution

Résumé

Recently, we have developed a localized adaptive waveform inversion method (LAWI) to tackle the cycle-skipping issue in velocity reconstruction by waveform inversion. In LAWI, the Gabor deconvolution is applied to compute a local matching filter, whose centroid time is used for measuring the instantaneous time shift between observed and calculated data. Different from AWI that is based on a stationary convolutional model, LAWI can take the non-stationarity nature of seismic data into account, therefore performs better in handling realistic cycle skipping problem. Numerical tests show that, compared with AWI, the application of LAWI seems to require a higher signal-to-noise ratio (SNR) of observed data. To make LAWI work for low-SNR data, a delta-type regularization is developed to deal with the noise problems inherent in the Gabor deconvolution. Despite a slight resolution loss and a "layer-stripping principle break" induced by this new regularization illustrated numerically, we present how this method can be useful to invert for low-SNR data on the Chevron benchmark dataset.
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Dates et versions

hal-03852599 , version 1 (15-11-2022)

Identifiants

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Peng Yong, Romain Brossier, Ludovic Métivier. Robust localized adaptive waveform inversion: A new regularization for Gabor deconvolution. Second International Meeting for Applied Geoscience & Energy, Aug 2022, Houston, United States. pp.972-976, ⟨10.1190/image2022-3745694.1⟩. ⟨hal-03852599⟩
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