DocumentCode
2331797
Title
Similarity clustering of dimensions for an enhanced visualization of multidimensional data
Author
Ankerst, Mihael ; Berchtold, Stefan ; Keim, Daniel A.
Author_Institution
Munich Univ., Germany
fYear
1998
fDate
19-20 Oct 1998
Firstpage
52
Abstract
The order and arrangement of dimensions (variates) is crucial for the effectiveness of a large number of visualization techniques such as parallel coordinates, scatterplots, recursive pattern, and many others. We describe a systematic approach to arrange the dimensions according to their similarity. The basic idea is to rearrange the data dimensions such that dimensions showing a similar behavior are positioned next to each other. For the similarity clustering of dimensions, we need to define similarity measures which determine the partial or global similarity of dimensions. We then consider the problem of finding an optimal one- or two-dimensional arrangement of the dimensions based on their similarity. Theoretical considerations show that both, the one- and the two-dimensional arrangement problem are surprisingly hard problems, i.e. they are NP complete. Our solution of the problem is therefore based on heuristic algorithms. An empirical evaluation using a number of different visualization techniques shows the high impact of our similarity clustering of dimensions on the visualization results
Keywords
computational complexity; data mining; data visualisation; NP complete; data dimensions; enhanced visualization; global similarity; hard problems; heuristic algorithms; multidimensional data; parallel coordinates; recursive pattern; scatterplots; similar behavior; similarity clustering; similarity measures; systematic approach; two dimensional arrangement; visualization techniques; Data visualization; Euclidean distance; Humans; Laboratories; Multidimensional systems; Shape;
fLanguage
English
Publisher
ieee
Conference_Titel
Information Visualization, 1998. Proceedings. IEEE Symposium on
Conference_Location
Research Triangle, CA
Print_ISBN
0-8186-9093-3
Type
conf
DOI
10.1109/INFVIS.1998.729559
Filename
729559
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