DocumentCode
1960443
Title
Landmarks: a new model for similarity-based pattern querying in time series databases
Author
Perng, C.-S. ; Wang, Huifang ; Zhang, Sylvia R. ; Parker, D. Stott
Author_Institution
California Univ., Los Angeles, CA, USA
fYear
2000
fDate
2000
Firstpage
33
Lastpage
42
Abstract
In this paper we present the landmark model, a model for time series that yields new techniques for similarity-based time series pattern querying. The landmark model does not follow traditional similarity models that rely on pointwise Euclidean distance. Instead, it leads to landmark similarity, a general model of similarity that is consistent with human intuition and episodic memory. By tracking different specific subsets of features of landmarks, we can efficiently compute different landmark similarity measures that are invariant under corresponding subsets of six transformations; namely, shifting, uniform amplitude scaling, uniform time scaling, uniform bi-scaling, time warping and non-uniform amplitude scaling. A method of identifying features that are invariant under these transformations is proposed. We also discuss a generalized approach for removing noise from raw time series without smoothing out the peaks and bottoms. Beside these new capabilities, our experiments show that landmark indexing is considerably fast
Keywords
database indexing; query processing; temporal databases; time series; episodic memory; human intuition; landmark indexing; landmark model; landmark similarity; landmark similarity measures; noise removal; nonuniform amplitude scaling; raw time series; shifting; similarity-based pattern querying; time series databases; time warping; uniform amplitude scaling; uniform bi-scaling; uniform time scaling; Data engineering; Data mining; Databases; Discrete Fourier transforms; Euclidean distance; Indexing; Read only memory; Smoothing methods; Surges; Time measurement;
fLanguage
English
Publisher
ieee
Conference_Titel
Data Engineering, 2000. Proceedings. 16th International Conference on
Conference_Location
San Diego, CA
ISSN
1063-6382
Print_ISBN
0-7695-0506-6
Type
conf
DOI
10.1109/ICDE.2000.839385
Filename
839385
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