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| Online DBSCAN× | DBSCAN× | HDBSCAN× | Διαδικτυακό Μοντέλο Μείγματος Gaussian× | Διαδικτυακός K-means× | |
|---|---|---|---|---|---|
| Πεδίο | Μηχανική Μάθηση | Μηχανική Μάθηση | Μηχανική Μάθηση | Μηχανική Μάθηση | Μηχανική Μάθηση |
| Οικογένεια | Machine learning | Machine learning | Machine learning | Machine learning | Machine learning |
| Έτος προέλευσης≠ | 1998 | 1996 | 2013 | 2000–2009 | 1967 (online update rule); 2010 (mini-batch variant) |
| Δημιουργός≠ | Ester, M., Kriegel, H.-P., Sander, J., Wimmer, M., & Xu, X. | Ester, M., Kriegel, H.-P., Sander, J. & Xu, X. | Campello, R. J. G. B.; Moulavi, D.; Sander, J. | Cappé, O. & Moulines, E. (online EM formulation) | MacQueen, J. (batch); Sculley, D. (mini-batch web-scale variant) |
| Τύπος≠ | Incremental density-based clustering | Density-based clustering algorithm | Hierarchical density-based clustering | Probabilistic clustering / density estimation (incremental) | Unsupervised clustering (online/streaming) |
| Θεμελιώδης πηγή≠ | Ester, M., Kriegel, H.-P., Sander, J., Wimmer, M., & Xu, X. (1998). Incremental Clustering for Mining in a Data Warehousing Environment. In Proceedings of the 24th International Conference on Very Large Data Bases (VLDB), pp. 323–333. link ↗ | Ester, M., Kriegel, H.-P., Sander, J. & Xu, X. (1996). A Density-Based Algorithm for Discovering Clusters in Large Spatial Databases with Noise. Proceedings of the 2nd KDD, 226–231. link ↗ | Campello, R. J. G. B., Moulavi, D., & Sander, J. (2013). Density-Based Clustering Based on Hierarchical Density Estimates. In J. Pei et al. (Eds.), Advances in Knowledge Discovery and Data Mining. PAKDD 2013. Lecture Notes in Computer Science, vol. 7819 (pp. 160–172). Springer, Berlin, Heidelberg. DOI ↗ | Cappé, O. & Moulines, E. (2009). On-line expectation-maximization algorithm for latent data models. Journal of the Royal Statistical Society: Series B, 71(3), 593–613. DOI ↗ | MacQueen, J. (1967). Some methods for classification and analysis of multivariate observations. In Proceedings of the Fifth Berkeley Symposium on Mathematical Statistics and Probability, Vol. 1, pp. 281–297. University of California Press. link ↗ |
| Εναλλακτικές ονομασίες≠ | Incremental DBSCAN, Streaming DBSCAN, Online density-based clustering, iDBSCAN | DBSCAN Kümeleme, density-based clustering, density-based spatial clustering | HDBSCAN, Hierarchical DBSCAN, hierarchical density-based clustering, HDBSCAN* | Online GMM, Incremental GMM, Streaming Gaussian Mixture Model, Sequential GMM | sequential k-means, streaming k-means, incremental k-means, online clustering |
| Συναφείς≠ | 5 | 3 | 3 | 5 | 4 |
| Σύνοψη≠ | Online DBSCAN extends the classic density-based clustering algorithm to handle continuously arriving data points without re-clustering the entire dataset from scratch. Each new observation is integrated into the existing cluster structure by local neighborhood queries, making it practical for streaming and data-warehousing scenarios where data grows incrementally. | DBSCAN is a density-based clustering algorithm, introduced by Ester, Kriegel, Sander and Xu in 1996, that groups together points lying in dense regions and flags points in sparse regions as noise. It is effective on noisy data and on clusters of irregular, non-spherical shapes. | HDBSCAN (Hierarchical Density-Based Spatial Clustering of Applications with Noise) is a density-based clustering algorithm introduced by Campello, Moulavi, and Sander in 2013. It extends DBSCAN by building a full hierarchy of density-based clusters across all density scales and then extracting a stable flat partition, making it robust to datasets where cluster densities vary substantially across regions. | Online Gaussian Mixture Model adapts the classic GMM to streaming or large-scale data by replacing full-batch EM with incremental updates — processing one observation or mini-batch at a time and continuously refining component means, covariances, and mixing weights without revisiting the entire dataset. | Online K-means is a streaming variant of the classical K-means algorithm that updates cluster centroids one observation at a time — or in small mini-batches — without storing the entire dataset in memory. It is particularly suited to large-scale, real-time, or continuously arriving data where batch recomputation would be too slow or impractical. |
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