Advanced visualization of Self-Organizing Maps with vector fields

Advanced visualization of Self-Organizing Maps with vector fields

Self-Organizing Maps have been applied in various industrial applications and have proven to be a valuable data mining tool. In order to fully benefit from their potential, advanced visualization techniques assist the user in analyzing and interpreting the maps. We propose two new methods for depict...

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Bibliographic Details
Published in:Neural networks Vol. 19; no. 6; pp. 911 - 922
Main Authors: Pölzlbauer, Georg, Dittenbach, Michael, Rauber, Andreas
Format: Journal Article Conference Proceeding
Language:English
Published: Oxford Elsevier Ltd 01-07-2006
Elsevier Science
Subjects:
Algorithms
Applied sciences
Artificial Intelligence
Borderline
Cluster Analysis
Computer Graphics
Computer science; control theory; systems
Computer Simulation
Connectionism. Neural networks
Databases, Factual
Exact sciences and technology
Gradient Field
Image processing
Information theory
Information, signal and communications theory
Neural Networks (Computer)
Pattern Recognition, Automated - methods
Self-Organizing Maps
Signal and communications theory
Signal processing
Signal representation. Spectral analysis
Signal, noise
Telecommunications and information theory
Visualization
Visualization
Gradient Field
Self-Organizing Maps
Borderline
Cluster analysis
Data analysis
Automatic classification
Correlation
Industrial application
Data processing
Information extraction
Neural network
Data mining
Signal classification
Detail level
Self-organising feature maps
Multidimensional database
Data visualization
Gradient method
Vector field
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Description
Summary:Self-Organizing Maps have been applied in various industrial applications and have proven to be a valuable data mining tool. In order to fully benefit from their potential, advanced visualization techniques assist the user in analyzing and interpreting the maps. We propose two new methods for depicting the SOM based on vector fields, namely the Gradient Field and Borderline visualization techniques, to show the clustering structure at various levels of detail. We explain how this method can be used on aggregated parts of the SOM that show which factors contribute to the clustering structure, and show how to use it for finding correlations and dependencies in the underlying data. We provide examples on several artificial and real-world data sets to point out the strengths of our technique, specifically as a means to combine different types of visualizations offering effective multidimensional information visualization of SOMs.
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0893-6080
1879-2782
DOI:10.1016/j.neunet.2006.05.013