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| Punteggio di Brier× | Accuratezza× | Log-Loss (Entropia Incrociata)× | Errore Assoluto Medio (MAE)× | |
|---|---|---|---|---|
| Campo | Valutazione dei modelli | Valutazione dei modelli | Valutazione dei modelli | Valutazione dei modelli |
| Famiglia | MCDM | MCDM | MCDM | MCDM |
| Anno di origine≠ | 1950 | 20th century | 1990s | 1799 |
| Ideatore≠ | Glenn W. Brier | Historical statistical foundations | Information theory and machine learning literature | Pierre-Simon Laplace |
| Tipo≠ | Loss function | Evaluation metric | Loss function | Robust distance-based metric |
| Fonte seminale≠ | Brier, G. W. (1950). Verification of forecasts expressed in terms of probability. Monthly Weather Review, 78(1), 1-3. DOI ↗ | Fawcett, T. (2006). An introduction to ROC analysis. Pattern Recognition Letters, 27(8), 861-874. DOI ↗ | Goodfellow, I., Bengio, Y., & Courville, A. (2016). Deep Learning. MIT Press. link ↗ | Laplace, P. S. (1799). Traité de Mécanique Céleste. Paris: J.B.M. Duprat. link ↗ |
| Alias≠ | Mean Squared Probability Error | Overall Accuracy, Correct Classification Rate | Cross-Entropy Loss, Logloss | MAE, L1 error, mean absolute deviation |
| Correlati≠ | 3 | 5 | 3 | 3 |
| Sintesi≠ | The Brier score measures the mean squared difference between predicted probabilities and actual binary outcomes. It is a simple, interpretable metric for evaluating the accuracy of probabilistic predictions, particularly in weather forecasting and medical diagnosis. | Accuracy is the proportion of correct predictions among the total number of predictions made by a classification model. It is the most intuitive performance metric and measures how often the classifier makes correct predictions overall, regardless of class. | Log-loss measures the difference between predicted probabilities and actual labels, penalizing confident wrong predictions more than uncertain ones. It is a standard loss function in machine learning optimization and evaluates probabilistic classifier calibration. | Mean Absolute Error is a robust metric that measures the average absolute magnitude of prediction errors in regression models. Dating back to Pierre-Simon Laplace's work on observational errors (1799), MAE quantifies typical prediction deviation by averaging the absolute differences between observed and predicted values. |
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