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Point-Biserial Correlation-Based Skill Scores for Probabilistic Forecasts
  • Nachiketa Acharya,
  • Michael K. Tippett
Nachiketa Acharya
International Research Institute for Climate and Society, Earth Institute at Columbia University, New York, NY, USA

Corresponding Author:[email protected]

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Michael K. Tippett
Department of Applied Physics and Applied Mathematics, Columbia University, New York, NY, USA
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Abstract

The point-biserial correlation (rpb) coefficient is a measure of the strength of association between a continuous-level variable and a dichotomous (“naturally” or “artificially” dichotomized) variable. The rpb is mathematically equivalent to Pearson correlation but has a more intuitive formula which provides insights on what constitutes a “good” association between continuous and dichotomous variable. In the probabilistic forecasts verification system, skill scores are estimated between issued forecast probabilities (continuous variable) and relative observed category (whether or not the event; dichotomous variable). Most of the existing skill scores for probabilistic forecasts focusing either on the mean squared error in probabilistic space (Brier score) or degree of correspondence between issued forecast probabilities and relative observed frequencies (reliability diagrams) or the degree of correct probabilistic discrimination in a set of forecasts. In this study, we will introduce the use of rpb to verify probabilistic forecasts for measuring the strength of association between issued forecast probabilities and actual observed events. The proposed method will be demonstrated in experimental evaluation with synthetic and real precipitation forecasts.