Bayesian Inversion, Uncertainty Analysis and Interrogation Using Boosting Variational Inference

Zhao, Xuebin; Curtis, Andrew

doi:10.1029/2023jb027789

JGR Solid Earth

2024

DOI: 10.1029/2023jb027789

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Bayesian Inversion, Uncertainty Analysis and Interrogation Using Boosting Variational Inference

Xuebin Zhao,

Andrew Curtis

Abstract: Geoscientists use observed data to estimate properties of the Earth's interior. This often requires non‐linear inverse problems to be solved and uncertainties to be estimated. Bayesian inference solves inverse problems under a probabilistic framework, in which uncertainty is represented by a so‐called posterior probability distribution. Recently, variational inference has emerged as an efficient method to estimate Bayesian solutions. By seeking the closest approximation to the posterior distribution within any… Show more

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2024

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Cited by 8 publications

References 120 publications

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Understanding the Adjoint Method in Seismology: Theory and Implementation in the Time Domain

Abreu

2024

Surv Geophys

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Understanding the Adjoint Method in Seismology: Theory and Implementation in the Time Domain

Abreu

2024

Surv Geophys

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Artificial intelligence for mineral exploration: A review and perspectives on future directions from data science

Yang,

Zuo,

Kreuzer

2024

Earth-Science Reviews

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Physically Structured Variational Inference for Bayesian Full Waveform Inversion

Zhao,

Curtis

2024

JGR Solid Earth

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Full waveform inversion (FWI) creates high resolution models of the Earth's subsurface structures from seismic waveform data. Due to the non‐linearity and non‐uniqueness of FWI problems, finding globally best‐fitting model solutions is not necessarily desirable since they fit noise as well as the desired signal in data. Bayesian FWI calculates a so‐called posterior probability distribution function, which describes all possible model solutions and their uncertainties. In this paper, we solve Bayesian FWI using variational inference, and propose a new methodology called physically structured variational inference, in which a physics‐based structure is imposed on the variational distribution. In a simple example motivated by prior information from imaging inverse problems, we include parameter correlations between pairs of spatial locations within a dominant wavelength of each other, and set other correlations to zero. This makes the method far more efficient compared to other variational methods in terms of both memory requirements and computation, at the cost of some loss of generality in the solution found. We demonstrate the proposed method with a 2D acoustic FWI scenario, and compare the results with those obtained using other methods. This verifies that the method can produce accurate statistical information about the posterior distribution with hugely improved efficiency (in our FWI example, 1 order of magnitude reduction in computation). We further demonstrate that despite the possible reduction in generality of the solution, the posterior uncertainties can be used to solve post‐inversion interrogation problems connected to estimating volumes of subsurface reservoirs and of stored , with minimal bias, creating a highly efficient FWI‐based decision‐making workflow.

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Bayesian Inversion, Uncertainty Analysis and Interrogation Using Boosting Variational Inference

Cited by 8 publications

References 120 publications

Understanding the Adjoint Method in Seismology: Theory and Implementation in the Time Domain

Understanding the Adjoint Method in Seismology: Theory and Implementation in the Time Domain

Artificial intelligence for mineral exploration: A review and perspectives on future directions from data science

Physically Structured Variational Inference for Bayesian Full Waveform Inversion

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