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| SHAP (SHapley Additive exPlanations)× | Beslutningstræ× | Logistisk regression× | |
|---|---|---|---|
| Fagområde≠ | Maskinlæring | Maskinlæring | Forskningsstatistik |
| Familie≠ | Machine learning | Machine learning | Process / pipeline |
| Oprindelsesår≠ | 2017 | 1984 | 1958 |
| Ophavsperson≠ | Lundberg, S.M. & Lee, S.-I. | Breiman, Friedman, Olshen & Stone | David Roxbee Cox |
| Type≠ | Model-explanation method (Shapley-value attribution) | Recursive partitioning (if-then rules) | Method |
| Oprindelig kilde≠ | Lundberg, S.M. & Lee, S.-I. (2017). A Unified Approach to Interpreting Model Predictions. Advances in Neural Information Processing Systems, 30, 4766–4777. link ↗ | Breiman, L., Friedman, J.H., Olshen, R.A. & Stone, C.J. (1984). Classification and Regression Trees. Wadsworth. DOI ↗ | Cox, D. R. (1958). The regression analysis of binary sequences. Journal of the Royal Statistical Society, Series B, 20(2), 215–242. DOI ↗ |
| Aliasser≠ | SHAP Değerleri (Model Açıklanabilirlik), Shapley additive explanations, SHAP values, model explainability | Karar Ağacı (Decision Tree), karar ağacı, classification tree, regression tree | logit model, binomial logistic regression, LR |
| Relaterede≠ | 5 | 5 | 3 |
| Resumé≠ | SHAP is a model-explanation method, introduced by Scott Lundberg and Su-In Lee in 2017, that uses Shapley values from cooperative game theory to measure how much each feature contributes to an individual prediction, making the output of black-box machine-learning models interpretable. It supports both global explanations (overall feature importance) and local explanations (why one specific prediction came out the way it did). | A Decision Tree is an interpretable classification and regression method, formalised by Breiman, Friedman, Olshen and Stone in their 1984 CART framework, that partitions the data with hierarchical if-then rules. Each split sends observations down one branch or another until a prediction is read off the leaf. | Logistic regression is a statistical method for modeling the probability of a binary outcome (disease present/absent, success/failure) as a function of continuous and categorical predictors. Developed by David Roxbee Cox (1958), it solves the problem of predicting categorical outcomes by applying a logistic transformation to constrain predictions to the [0,1] probability interval, enabling accurate risk stratification, diagnostic prediction, and causal inference in epidemiology, medicine, and social science. |
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