2,293 research outputs found
Use and Communication of Probabilistic Forecasts
Probabilistic forecasts are becoming more and more available. How should they
be used and communicated? What are the obstacles to their use in practice? I
review experience with five problems where probabilistic forecasting played an
important role. This leads me to identify five types of potential users: Low
Stakes Users, who don't need probabilistic forecasts; General Assessors, who
need an overall idea of the uncertainty in the forecast; Change Assessors, who
need to know if a change is out of line with expectatations; Risk Avoiders, who
wish to limit the risk of an adverse outcome; and Decision Theorists, who
quantify their loss function and perform the decision-theoretic calculations.
This suggests that it is important to interact with users and to consider their
goals. The cognitive research tells us that calibration is important for trust
in probability forecasts, and that it is important to match the verbal
expression with the task. The cognitive load should be minimized, reducing the
probabilistic forecast to a single percentile if appropriate. Probabilities of
adverse events and percentiles of the predictive distribution of quantities of
interest seem often to be the best way to summarize probabilistic forecasts.
Formal decision theory has an important role, but in a limited range of
applications
Variable selection and updating in model-based discriminant analysis for high dimensional data with food authenticity applications
Food authenticity studies are concerned with determining if food samples have been correctly labelled or not. Discriminant analysis methods are an integral part of the methodology for food authentication. Motivated by food authenticity applications, a model-based discriminant analysis method that includes variable selection is presented. The discriminant analysis model is fitted in a semi-supervised manner using both labeled and unlabeled data. The method is shown to give excellent classification
performance on several high-dimensional multiclass food authenticity datasets with more variables than observations. The variables selected by the proposed method provide information about which variables are meaningful for classification purposes. A headlong search strategy for variable selection is shown to be efficient in terms of computation and achieves excellent classification performance. In applications to several food authenticity datasets, our proposed method outperformed default implementations of Random Forests, AdaBoost, transductive SVMs and Bayesian Multinomial Regression by substantial margins
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