Dynamic L1-Norm Tucker Tensor Decomposition

Dynamic L1-Norm Tucker Tensor Decomposition

Tucker decomposition is a standard method for processing multi-way (tensor) measurements and finds many applications in machine learning and data mining, among other fields. When tensor measurements arrive in a streaming fashion or are too many to jointly decompose, incremental Tucker analysis is pr...

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Veröffentlicht in:IEEE journal of selected topics in signal processing 2021-04, Vol.15 (3), p.587-602
Hauptverfasser: Chachlakis, Dimitris G., Dhanaraj, Mayur, Prater-Bennette, Ashley, Markopoulos, Panos P.
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Approximation algorithms
Data analysis
Data mining
Decomposition
Heuristic algorithms
L1-norm
Machine learning
Mathematical analysis
outliers
Outliers (statistics)
Pollution measurement
Principal component analysis
robust
Signal processing algorithms
Subspaces
Tensors
tucker decomposition
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Beschreibung
Zusammenfassung:Tucker decomposition is a standard method for processing multi-way (tensor) measurements and finds many applications in machine learning and data mining, among other fields. When tensor measurements arrive in a streaming fashion or are too many to jointly decompose, incremental Tucker analysis is preferred. In addition, dynamic adaptation of bases is desired when the nominal data subspaces change. At the same time, it has been documented that outliers in the data can significantly compromise the performance of existing methods for dynamic Tucker analysis. In this work, we present Dynamic L1-Tucker: an algorithm for dynamic and outlier-resistant Tucker analysis of tensor data. Our experimental studies on both real and synthetic datasets corroborate that the proposed method (i) attains high bases estimation performance, (ii) identifies/rejects outliers, and (iii) adapts to changes of the nominal subspaces.
ISSN:1932-4553
1941-0484
DOI:10.1109/JSTSP.2021.3058846