scholarly journals Consistency of Bayesian inference with Gaussian process priors for a parabolic inverse problem

2022 ◽  
Author(s):  
Hanne Kekkonen
Keyword(s):  
Inverse Problem ◽  
Convergence Rate ◽  
Gaussian Process ◽  
Reconstruction Error ◽  
Posterior Distributions ◽  
Smooth Functions ◽  
True Parameter ◽  
Linear Inverse Problem ◽  
Point Evaluations ◽  
Truncated Gaussian

Abstract We consider the statistical non-linear inverse problem of recovering the absorption term f>0 in the heat equation with given sufficiently smooth functions describing boundary and initial values respectively. The data consists of N discrete noisy point evaluations of the solution u_f. We study the statistical performance of Bayesian nonparametric procedures based on a large class of Gaussian process priors. We show that, as the number of measurements increases, the resulting posterior distributions concentrate around the true parameter generating the data, and derive a convergence rate for the reconstruction error of the associated posterior means. We also consider the optimality of the contraction rates and prove a lower bound for the minimax convergence rate for inferring f from the data, and show that optimal rates can be achieved with truncated Gaussian priors.

scholarly journals Rates of contraction of posterior distributions based on Gaussian process priors

2008 ◽  
Vol 36 (3) ◽  
pp. 1435-1463 ◽  
Author(s):  
A. W. van der Vaart ◽  
J. H. van Zanten
Keyword(s):  
Gaussian Process ◽  
Posterior Distributions

scholarly journals Bayesian Derivative Order Estimation for a Fractional Logistic Model

Mathematics ◽  
2020 ◽  
Vol 8 (1) ◽  
pp. 109
Author(s):  
Francisco J. Ariza-Hernandez ◽  
Martin P. Arciga-Alejandre ◽  
Jorge Sanchez-Ortiz ◽  
Alberto Fleitas-Imbert
Keyword(s):  
Inverse Problem ◽  
Logistic Model ◽  
Likelihood Function ◽  
Synthetic Data ◽  
Real Data ◽  
Posterior Distributions ◽  
Rate Parameter ◽  
Order Estimation ◽  
Proposed Model ◽  
Derivative Order

In this paper, we consider the inverse problem of derivative order estimation in a fractional logistic model. In order to solve the direct problem, we use the Grünwald-Letnikov fractional derivative, then the inverse problem is tackled within a Bayesian perspective. To construct the likelihood function, we propose an explicit numerical scheme based on the truncated series of the derivative definition. By MCMC samples of the marginal posterior distributions, we estimate the order of the derivative and the growth rate parameter in the dynamic model, as well as the noise in the observations. To evaluate the methodology, a simulation was performed using synthetic data, where the bias and mean square error are calculated, the results give evidence of the effectiveness for the method and the suitable performance of the proposed model. Moreover, an example with real data is presented as evidence of the relevance of using a fractional model.

Gaussian Process Model for Touch Probing

2018 ◽  
Author(s):  
Xilu Wang ◽  
Xiaoping Qian
Keyword(s):  
Gaussian Process ◽  
Process Model ◽  
Reconstruction Error ◽  
Gaussian Process Model ◽  
Numerical Examples ◽  
Coordinate Measurement ◽  
Uniform Sampling ◽  
Coordinate Measurement Machine ◽  
Machining Errors ◽  
Surface Deviations

In this paper, we present an approach to determine probing points for the CMM (coordinate measurement machine) measurement. A surface uncertainty based approach is developed to maximize the amount of information acquired by the touch probing of the surface deviations caused by machining errors. The surface uncertainty is modeled by the Gaussian process model and the probing points are selected to minimize the maximum surface uncertainty (surface variance) conditioned on the touch probings at the selected points. The algorithm has been tested with various numerical examples and has been applied in real machining scenarios. The surface reconstruction error based on the developed algorithm is 50% smaller than uniform sampling. The experiments of on machine probing has validated that the selected points can adequately capture the machining errors.

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