TPSLVM: A Dimensionality Reduction Algorithm Based On Thin Plate Splines

TPSLVM: A Dimensionality Reduction Algorithm Based On Thin Plate Splines

Dimensionality reduction (DR) has been considered as one of the most significant tools for data analysis. One type of DR algorithms is based on latent variable models (LVM). LVM-based models can handle the preimage problem easily. In this paper we propose a new LVM-based DR model, named thin plate s...

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Veröffentlicht in:IEEE transactions on cybernetics 2014-10, Vol.44 (10), p.1795-1807
Hauptverfasser: Jiang, Xinwei, Gao, Junbin, Wang, Tianjiang, Shi, Daming
Format: Artikel
Sprache:eng
Schlagworte:
Algorithm design and analysis
Algorithms
Computational modeling
Data models
Data visualization
dimensionality reduction
Dynamic tests
Economic models
Gaussian
Gaussian processes
Ground penetrating radar
Kernel
latent variable models
Mathematical models
Monte Carlo simulation
Reduction
Splines
Splines (mathematics)
Thin plates
unsupervised learning
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Zusammenfassung:Dimensionality reduction (DR) has been considered as one of the most significant tools for data analysis. One type of DR algorithms is based on latent variable models (LVM). LVM-based models can handle the preimage problem easily. In this paper we propose a new LVM-based DR model, named thin plate spline latent variable model (TPSLVM). Compared to the well-known Gaussian process latent variable model (GPLVM), our proposed TPSLVM is more powerful especially when the dimensionality of the latent space is low. Also, TPSLVM is robust to shift and rotation. This paper investigates two extensions of TPSLVM, i.e., the back-constrained TPSLVM (BC-TPSLVM) and TPSLVM with dynamics (TPSLVM-DM) as well as their combination BC-TPSLVM-DM. Experimental results show that TPSLVM and its extensions provide better data visualization and more efficient dimensionality reduction compared to PCA, GPLVM, ISOMAP, etc.
ISSN:2168-2267
2168-2275
DOI:10.1109/TCYB.2013.2295329