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The application of Bayesian decision theory to the selection of functional test intervals for engineered safety systems /Buoni, Frederick Buell January 1971 (has links)
No description available.
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Bayesian analysis of Markov chains and inference in a stochastic model /Travnicek, Daryl A. January 1972 (has links)
No description available.
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Bayesian inference in geodesy /Bossler, John David January 1972 (has links)
No description available.
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Bayes allocation and sequential estimation in stratified populations /Wright, Tommy January 1977 (has links)
No description available.
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Bayesian statistics in auditing : a comparison of probability elicitation techniques and sample size decisions /Crosby, Michael A. January 1978 (has links)
No description available.
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Statistical estimation of the locations of lightning eventsElhor, Aicha 01 April 2000 (has links)
No description available.
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Eliciting and combining expert opinion : an overview and comparison of methodsChinyamakobvu, Mutsa Carole January 2015 (has links)
Decision makers have long relied on experts to inform their decision making. Expert judgment analysis is a way to elicit and combine the opinions of a group of experts to facilitate decision making. The use of expert judgment is most appropriate when there is a lack of data for obtaining reasonable statistical results. The experts are asked for advice by one or more decision makers who face a specific real decision problem. The decision makers are outside the group of experts and are jointly responsible and accountable for the decision and committed to finding solutions that everyone can live with. The emphasis is on the decision makers learning from the experts. The focus of this thesis is an overview and comparison of the various elicitation and combination methods available. These include the traditional committee method, the Delphi method, the paired comparisons method, the negative exponential model, Cooke’s classical model, the histogram technique, using the Dirichlet distribution in the case of a set of uncertain proportions which must sum to one, and the employment of overfitting. The supra Bayes approach, the determination of weights for the experts, and combining the opinions of experts where each opinion is associated with a confidence level that represents the expert’s conviction of his own judgment are also considered.
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Toward a scalable Bayesian workflowYao, Yuling January 2021 (has links)
A scalable Bayesian workflow needs the combination of fast but reliable computing, efficient but targeted model evaluation, and extensive but directed model building and expansion. In this thesis, I develop a sequence of methods to push the scalability frontier of the workflow.
First, I study diagnostics of Bayesian computing. The Pareto smoothed importance sampling stabilizes importance weights using a generalized Pareto distribution fit to the upper tail of the distribution of the simulated importance ratios. The method, which empirically performs better than existing methods for stabilizing importance sampling estimates, includes stabilized effective sample size estimates, Monte Carlo error estimates and convergence diagnostics. For variational inference, I propose two diagnostic algorithms. The Pareto smoothed importance sampling diagnostic gives a goodness of fit measurement for joint distributions, while the variational simulation-based calibration assesses the average performance of point estimates. I further apply this importance sampling strategy to causal inference and develop diagnostics for covariate imbalance in observational studies.
Second, I develop a solution to continuous model expansion using adaptive path sampling and tempering. This development is relevant to both model-building and computing in the workflow. For the former, I provide an automated way to connect models via a geometric bridge such that a supermodel encompasses individual models as a special case. For the latter, I use adaptive path sampling as a preferred strategy to estimating the normalizing constant and marginal density, based on which I propose two metastable sampling schemes. The continuous simulated tempering aims at multimodal posterior sampling, and the implicit divide-and-conquer sampler aims for a funnel-shaped entropic barrier. Both schemes are highly automated and empirically perform better than existing methods for sampling from metastable distributions.
Last, a complete Bayesian workflow distinguishes itself from a one-shot data analysis by its enthusiasm for multiple model fittings, and open-mindedness to model misspecification. I take the idea of stacking from the point estimation literature and generalize to the combination of Bayesian predictive distributions. Using importance sampling based leave-one-out approximation, stacking is computationally efficient. I compare stacking, Bayesian model averaging, and several variants in a decision theory framework. I further apply the stacking strategy to multimodal sampling in which Markov chain Monte Carlo algorithms can have difficulty moving between modes. The result from stacking is not necessarily equivalent, even asymptotically, to fully Bayesian inference, but it serves many of the same goals. Under misspecified models, stacking can give better predictive performance than full Bayesian inference, hence the multimodality can be considered a blessing rather than a curse. Furthermore, I show that stacking is most effective when the model predictive performance is heterogeneous in inputs, such that it can be further improved by hierarchical modeling. To this end, I develop hierarchical stacking, in which the model weights are input-varying yet partially-pooled, and further generalize this method to incorporate discrete and continuous inputs, other structured priors, and time-series and longitudinal data—big data need big models, and big models need big model evaluation, and big model evaluation itself needs extra data collection and model building.
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Reliability growth models and reliability acceptance sampling plans from a Bayesian viewpoint林達明, Lin, Daming. January 1995 (has links)
published_or_final_version / Statistics / Doctoral / Doctor of Philosophy
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Bayesian analysis of errors-in-variables in generalized linear models鄧沛權, Tang, Pui-kuen. January 1992 (has links)
published_or_final_version / Statistics / Doctoral / Doctor of Philosophy
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