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A Fully Bayesian Approach to Assessment ...

Bhattacharya, Sourab...

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A Fully Bayesian Approach to Assessment of Model Adequacy in Inverse Problems by Bhattacharya, Sourabh ( Author )

Content Provider	Lemonjar Open Access
Publisher	Australian National University
Publication Date	11-08-2023
Summary	We consider the problem of assessing goodness of fit of a single Bayesian model to the observed data in the inverse problem context. A novel procedure of goodness of fit test is proposed, based on construction of reference distributions using the `inverse' part of the given model. This is motivated by an example from palaeoclimatology in which it is of interest to reconstruct past climates using information obtained from fossils deposited in lake sediment. Technically, given a model $f(Y\mid X,\theta)$, where $Y$ is the observed data and $X$ is a set of (non-random) covariates, we obtain reference distributions based on the posterior $\pi(\tilde X\mid Y)$, where $\tilde X$ must be interpreted as the {\it unobserved} random vector corresponding to the {\it observed} covariates $X$. Put simply, if the posterior distribution $\pi(\tilde X\mid Y)$ gives high density to the observed covariates $X$, or equivalently, if the posterior distribution of $T(\tilde X)$ gives high density to $T(X)$, where $T$ is any appropriate statistic, then we say that the model fits the data. Otherwise the model in question is not adequate. We provide decision-theoretic justification of our proposed approach and discuss other theoretical and computational advantages. We demonstrate our methodology with many simulated examples and three complex, high-dimensional, realistic palaeoclimate problems, including the motivating palaeoclimate problem.
ISBN	-
Item Type	Article
File Type	pdf
File Size	30.00 KB
Language	English
Subjects	-
Unlimited	MYR 0.01
Total read	-
URL	http://arxiv.org/abs/1203.2403

Citation

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AMA 11th EditionReferences

Bhattacharya, Sourabh. A Fully Bayesian Approach to Assessment of Model Adequacy in Inverse Problems. Australian National University. August 11, 2023. Accessed October 02, 2025. https://online.provdatabase.com/cite/15831

APA 7th EditionReferences

Bhattacharya, Sourabh. (2023). A Fully Bayesian Approach to Assessment of Model Adequacy in Inverse Problems. Australian National University. https://online.provdatabase.com/cite/15831

Chicago 17th EditionReferences

Bhattacharya, Sourabh. A Fully Bayesian Approach to Assessment of Model Adequacy in Inverse Problems. Australian National University. 2023. https://online.provdatabase.com/cite/15831

HarvardReferences

Bhattacharya, Sourabh. (2023). A Fully Bayesian Approach to Assessment of Model Adequacy in Inverse Problems. [Online]. Australian National University. Available from: https://online.provdatabase.com/cite/15831. (Accessed 02 October 2025).

Harvard AustraliaReferences

Bhattacharya, Sourabh, 2023, A Fully Bayesian Approach to Assessment of Model Adequacy in Inverse Problems, Australian National University, viewed 02 October 2025, <https://online.provdatabase.com/cite/15831>

MLA 9th EditionWorks Cited

Bhattacharya, Sourabh. A Fully Bayesian Approach to Assessment of Model Adequacy in Inverse Problems. Australian National University, 2023. PROV Database, https://online.provdatabase.com/cite/15831.

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