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| Eloszlásból Kívüli Detektálás× | Isolation Forest× | Bizonytalanság-kvantifikálás× | |
|---|---|---|---|
| Tudományterület≠ | Gépi tanulás | Gépi tanulás | Szimuláció |
| Módszercsalád≠ | Machine learning | Machine learning | Process / pipeline |
| Keletkezés éve≠ | 2017 | 2008 | Seminal modern form: 2002 |
| Megalkotó≠ | Hendrycks & Gimpel | Liu, F.T., Ting, K.M. & Zhou, Z.-H. | Norbert Wiener (polynomial chaos, 1938); extended to Wiener–Askey scheme by Xiu & Karniadakis (2002) |
| Típus≠ | Reliability and safety method for neural networks | Unsupervised ensemble (random partitioning trees) | Computational uncertainty analysis framework |
| Alapmű≠ | Hendrycks, D., & Gimpel, K. (2017). A baseline for detecting misclassified and out-of-distribution examples in neural networks. International Conference on Learning Representations. link ↗ | Liu, F.T., Ting, K.M. & Zhou, Z.-H. (2008). Isolation Forest. IEEE ICDM, 413–422. DOI ↗ | Xiu, D. & Karniadakis, G.E. (2002). The Wiener-Askey Polynomial Chaos for Stochastic Differential Equations. SIAM Journal on Scientific Computing, 24(2), 619–644. DOI ↗ |
| Alternatív nevek≠ | OOD Detection, Novelty Detection, Open-Set Recognition, Dağılım Dışı Tespit | Isolation Forest (Aykırı Değer Tespiti), iForest, isolation forest anomaly detection | UQ, polynomial chaos expansion, PCE, Kriging surrogate |
| Kapcsolódó≠ | 3 | 5 | 9 |
| Összefoglaló≠ | Out-of-Distribution (OOD) detection is a set of techniques that identify when a deployed machine learning model receives inputs that differ significantly from its training data distribution. Introduced as a formal problem by Hendrycks and Gimpel in 2017, these methods enable models to flag unfamiliar inputs rather than silently produce unreliable predictions, making them foundational to trustworthy and safe AI deployment in high-stakes domains. | Isolation Forest is an unsupervised machine-learning method for anomaly and outlier detection, introduced by Liu, Ting and Zhou in 2008, that isolates anomalies through random partitioning of the data. It works without any labelled anomaly data and scales to high-dimensional datasets. | Uncertainty Quantification (UQ) is a computational framework for systematically measuring how uncertainty in the inputs of a model propagates into uncertainty in its outputs. Building on Wiener's polynomial chaos theory (1938) and formalised for general stochastic problems by Xiu and Karniadakis (2002), UQ uses two primary strategies: Polynomial Chaos Expansion (PCE), which represents the model output as a series of orthogonal polynomials matched to the input distributions, and Kriging (Gaussian process) surrogates, which replace an expensive simulation with a fast statistical approximation fitted to a small set of carefully chosen runs. |
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