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| Magyarázható LDA Témamodell× | Nemnegatív Mátrix Faktorizáció (NMF)× | |
|---|---|---|
| Tudományterület≠ | Mélytanulás | Gépi tanulás |
| Módszercsalád≠ | Machine learning | Latent structure |
| Keletkezés éve≠ | 2003 (LDA); 2018–present (explainability extensions) | 1999 |
| Megalkotó≠ | Blei, D. M., Ng, A. Y., & Jordan, M. I. (LDA seminal); explainability extensions by multiple authors | Lee, D. D. & Seung, H. S. |
| Típus≠ | Probabilistic generative topic model with interpretability enhancements | Matrix decomposition with non-negativity constraints |
| Alapmű≠ | Blei, D. M., Ng, A. Y., & Jordan, M. I. (2003). Latent Dirichlet Allocation. Journal of Machine Learning Research, 3, 993–1022. link ↗ | Lee, D. D., & Seung, H. S. (1999). Learning the parts of objects by non-negative matrix factorization. Nature, 401(6755), 788–791. DOI ↗ |
| Alternatív nevek≠ | Explainable LDA, Interpretable LDA, XAI-LDA, Transparent Topic Model | NMF, NNMF, nonnegative matrix factorization, non-negative matrix approximation |
| Kapcsolódó | 4 | 4 |
| Összefoglaló≠ | Explainable LDA combines Latent Dirichlet Allocation — the canonical probabilistic topic model introduced by Blei, Ng, and Jordan in 2003 — with post-hoc and intrinsic interpretability tools that make each discovered topic auditable, labeled, and trustworthy for human reviewers. It is widely used in NLP, social science text analysis, and computational humanities where transparency is required alongside discovery. | Non-negative Matrix Factorization (NMF) is a family of algorithms, introduced by Lee and Seung in their landmark 1999 Nature paper, that decomposes a non-negative data matrix V into the product of two lower-rank non-negative matrices W (basis components) and H (encoding coefficients). Unlike PCA or SVD, the non-negativity constraint forces the algorithm to learn strictly additive, parts-based representations, making the factors directly interpretable as building blocks of the original data. |
| ScholarGateAdatkészlet ↗ |
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