Parsimonious Bayesian Markov chain Monte Carlo inversion in a nonlinear geophysical problem

Malinverno, Alberto

doi:10.1046/j.1365-246x.2002.01847.x

Cited by 407 publications

(353 citation statements)

References 45 publications

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“…The methodology, previously described by Brodie and Sambridge (2012), was adapted from the 2D seismic tomography inversion work of Bodin and Sambridge (2009). Similar techniques in the geophysical literature include Malinverno (2002) and Minsley (2012).…”

Section: Monte Carlo Inversionmentioning

confidence: 99%

Monte Carlo Inversion of SkyTEM^TM AEM data from Lake Thetis, Western Australia

Brodie

Reid²

2013

ASEG Extended Abstracts

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Section: Monte Carlo Inversionmentioning

confidence: 99%

Monte Carlo Inversion of SkyTEM^TM AEM data from Lake Thetis, Western Australia

Brodie

Reid²

2013

ASEG Extended Abstracts

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“…At first glance, models with a greater number of change points may seem prone to fit the data better, hence yielding higher posterior probability with respect to simpler (that is, less change points) models. However, it is well established that trans-dimensional Bayesian inference follows the principle of 'natural parsimony' 18 , where preference always falls on the least complex explanation of observations.…”

Section: Trans-dimensional Hierarchical Bayesian Formulationmentioning

confidence: 99%

“…Here, we tackle noise in finite rotations by using a trans-dimensional hierarchical Bayesian framework [17][18][19][20][21] (Methods). We find that changes in the temporal trends of plate motions occur on timescales no shorter than a few million years, yielding simpler kinematic patterns and more plausible dynamics.…”

mentioning

confidence: 99%

Reconstructing plate-motion changes in the presence of finite-rotations noise

2012

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understanding lithospheric plate motions is of paramount importance to geodynamicists. much effort is going into kinematic reconstructions featuring progressively finer temporal resolution. However, the challenge of precisely identifying ocean-floor magnetic lineations, and uncertainties in geomagnetic reversal timescales result in substantial finite-rotations noise. unless some type of temporal smoothing is applied, the scenario arising at the native temporal resolution is puzzling, as plate motions vary erratically and significantly over short periods ( < 1 myr). This undermines our ability to make geodynamic inferences, as the rates at which forces need to be built upon plates to explain these kinematics far exceed the most optimistic estimates. Here we show that the largest kinematic changes reconstructed across the Atlantic, Indian and south Pacific ridges arise from data noise. We overcome this limitation using a trans-dimensional hierarchical Bayesian framework. We find that plate-motion changes occur on timescales no shorter than a few million years, yielding simpler kinematic patterns and more plausible dynamics.

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“…Therefore, a criterion for an optimal model dimension selection, which here depends on the maximum degree of spherical harmonic expansion, has to be established. A transdimensional type of sampling has recently been applied in many inverse problems to determine optimal model selection, despite the high computational burden (Malinverno 2002;Sambridge et al 2006;Dettmer et al 2010;Tkalčić et al 2013). Alternatively, an information criterion (IC) can be used at lower computational cost (Schwarz 1978;Pachhai et al 2014).…”

Section: Introductionmentioning

confidence: 99%

A method of spherical harmonic analysis in the geosciences via hierarchical Bayesian inference

Muir

Tkalčić

2015

Geophysical Journal International

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S U M M A R YThe problem of decomposing irregular data on the sphere into a set of spherical harmonics is common in many fields of geosciences where it is necessary to build a quantitative understanding of a globally varying field. For example, in global seismology, a compressional or shear wave speed that emerges from tomographic images is used to interpret current state and composition of the mantle, and in geomagnetism, secular variation of magnetic field intensity measured at the surface is studied to better understand the changes in the Earth's core. Optimization methods are widely used for spherical harmonic analysis of irregular data, but they typically do not treat the dependence of the uncertainty estimates on the imposed regularization. This can cause significant difficulties in interpretation, especially when the best-fit model requires more variables as a result of underestimating data noise. Here, with the above limitations in mind, the problem of spherical harmonic expansion of irregular data is treated within the hierarchical Bayesian framework. The hierarchical approach significantly simplifies the problem by removing the need for regularization terms and user-supplied noise estimates. The use of the corrected Akaike Information Criterion for picking the optimal maximum degree of spherical harmonic expansion and the resulting spherical harmonic analyses are first illustrated on a noisy synthetic data set. Subsequently, the method is applied to two global data sets sensitive to the Earth's inner core and lowermost mantle, consisting of PKPab-df and PcP-P differential traveltime residuals relative to a spherically symmetric Earth model. The posterior probability distributions for each spherical harmonic coefficient are calculated via Markov Chain Monte Carlo sampling; the uncertainty obtained for the coefficients thus reflects the noise present in the real data and the imperfections in the spherical harmonic expansion.

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Parsimonious Bayesian Markov chain Monte Carlo inversion in a nonlinear geophysical problem

Cited by 407 publications

References 45 publications

Monte Carlo Inversion of SkyTEM^TM AEM data from Lake Thetis, Western Australia

Monte Carlo Inversion of SkyTEM^TM AEM data from Lake Thetis, Western Australia

Reconstructing plate-motion changes in the presence of finite-rotations noise

A method of spherical harmonic analysis in the geosciences via hierarchical Bayesian inference

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Parsimonious Bayesian Markov chain Monte Carlo inversion in a nonlinear geophysical problem

Cited by 407 publications

References 45 publications

Monte Carlo Inversion of SkyTEMTM AEM data from Lake Thetis, Western Australia

Monte Carlo Inversion of SkyTEMTM AEM data from Lake Thetis, Western Australia

Reconstructing plate-motion changes in the presence of finite-rotations noise

A method of spherical harmonic analysis in the geosciences via hierarchical Bayesian inference

Contact Info

Product

Resources

About

Monte Carlo Inversion of SkyTEM^TM AEM data from Lake Thetis, Western Australia

Monte Carlo Inversion of SkyTEM^TM AEM data from Lake Thetis, Western Australia