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| Boosting× | Povećanje gradijenta× | Robusno pojačanje gradijenta× | |
|---|---|---|---|
| Područje | Strojno učenje | Strojno učenje | Strojno učenje |
| Obitelj | Machine learning | Machine learning | Machine learning |
| Godina nastanka≠ | 1990–1997 | 2001 | 2001 |
| Tvorac≠ | Schapire, R. E.; Freund, Y. | Friedman, J. H. | Friedman, J. H. (with Huber loss from Huber, P. J.) |
| Vrsta≠ | Sequential ensemble (iterative reweighting) | Ensemble (sequential boosting of decision trees) | Ensemble (boosted trees with robust loss) |
| Temeljni izvor≠ | Freund, Y. & Schapire, R. E. (1997). A decision-theoretic generalization of on-line learning and an application to boosting. Journal of Computer and System Sciences, 55(1), 119–139. DOI ↗ | Friedman, J. H. (2001). Greedy Function Approximation: A Gradient Boosting Machine. Annals of Statistics, 29(5), 1189–1232. DOI ↗ | Friedman, J. H. (2001). Greedy function approximation: A gradient boosting machine. Annals of Statistics, 29(5), 1189–1232. DOI ↗ |
| Drugi nazivi | AdaBoost, gradient boosting, iterative reweighting ensemble, sequential ensemble | Gradient Boosting (GBM), GBM, gradient boosted trees, gradient boosting machine | gradient boosting with Huber loss, robust GBM, outlier-robust boosting, robust gradient-boosted trees |
| Srodne≠ | 6 | 5 | 6 |
| Sažetak≠ | Boosting is a sequential ensemble technique that converts many simple, barely-better-than-chance learners into a single highly accurate model by repeatedly focusing training on the examples that previous learners got wrong, then combining all learners with weights proportional to their individual accuracy. | Gradient Boosting is an ensemble learning method, formalised by Jerome H. Friedman in 2001, that combines a sequence of weak learners — typically shallow decision trees — so that each new tree is fitted to minimise the residual errors of the trees before it. It is the core algorithm behind popular implementations such as XGBoost, LightGBM and CatBoost. | Robust Gradient Boosting is gradient boosting trained with outlier-resistant loss functions — most commonly the Huber loss or quantile (pinball) loss — instead of squared-error loss. Proposed in Friedman's seminal 2001 paper, this variant produces predictions far less distorted by extreme values or contaminated labels, while retaining the full predictive power of gradient-boosted trees. |
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