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| Τυχαία Προβολή× | Τοπικά Γραμμική Ενσωμάτωση (LLE)× | |
|---|---|---|
| Πεδίο | Μηχανική Μάθηση | Μηχανική Μάθηση |
| Οικογένεια | Machine learning | Machine learning |
| Έτος προέλευσης≠ | 1984 | 2000 |
| Δημιουργός≠ | Johnson & Lindenstrauss (lemma); Achlioptas (sparse variant) | Sam Roweis & Lawrence Saul |
| Τύπος≠ | Linear, data-oblivious dimensionality reduction | Nonlinear manifold dimensionality reduction |
| Θεμελιώδης πηγή≠ | Johnson, W. B., & Lindenstrauss, J. (1984). Extensions of Lipschitz mappings into a Hilbert space. Contemporary Mathematics, 26, 189–206. DOI ↗ | Roweis, S. T., & Saul, L. K. (2000). Nonlinear dimensionality reduction by locally linear embedding. Science, 290(5500), 2323–2326. DOI ↗ |
| Εναλλακτικές ονομασίες | random projections, Johnson-Lindenstrauss projection, sparse random projection, rastgele izdüşüm | LLE, manifold learning, nonlinear dimensionality reduction, yerel doğrusal gömme |
| Συναφείς≠ | 2 | 3 |
| Σύνοψη≠ | Random projection reduces dimensionality by multiplying the data by a random matrix, relying on the Johnson-Lindenstrauss lemma (1984), which guarantees that projecting onto enough random directions approximately preserves all pairwise distances. Unlike PCA it does not analyze the data at all — the projection is random and data-oblivious — making it extremely cheap and well suited to very high-dimensional data and streaming or privacy-sensitive settings. | Locally linear embedding, introduced by Sam Roweis and Lawrence Saul in 2000, is a manifold-learning method for nonlinear dimensionality reduction. It assumes that although data may curve through a high-dimensional space, each point and its neighbours lie approximately on a flat patch. LLE captures each point as a weighted combination of its neighbours and then finds a low-dimensional layout that preserves those same local relationships, unrolling curved structure into a faithful low-dimensional map. |
| ScholarGateΣύνολο δεδομένων ↗ |
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