Physics-based feature mining for large data exploration

Author

Thompson, David S. ; Machiraju, Raghu K. ; Jiang, Ming ; Nair, Jaya Sreevalsan ; Craclun, G. ; Venkata, Satya Sridhar Dusi

Author_Institution

Center for Computational Syst., Mississippi State Univ., MS, USA

Volume

4

Issue

4

fYear

2002

Firstpage

22

Lastpage

30

Abstract

One effective way of exploring large scientific data sets is a process called feature mining. The two approaches described here locate specific features through algorithms that are geared to those features underlying physics. Our intent with both approaches is to exploit the physics of the problem at hand to develop highly discriminating, application-dependent feature detection algorithms and then use available data mining algorithms to classify, cluster, and categorize the identified features. We have also developed a technique for denoising feature maps that exploits spatial-scale coherence and uses what we call feature preserving wavelets. The examples presented demonstrate our feature mining approach as applied to steady computational fluid dynamics simulations on curvilinear grids

Keywords

data analysis; data mining; data visualisation; pattern clustering; physics computing; Evita system; clustering; data analysis; data mining; exploratory visualization; feature detection algorithms; feature mining; feature preserving wavelet; interrogation; large-data exploration; large-scale data visualization; scientific data sets; Computational modeling; Computer vision; Data mining; Data visualization; Detection algorithms; Feature extraction; Large-scale systems; Physics computing; Prototypes; Scheduling;

fLanguage

English

Journal_Title

Computing in Science & Engineering

Publisher

ieee

ISSN

1521-9615

Type

jour

DOI

10.1109/MCISE.2002.1014977

Filename

1014977