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Scream cube: An architecture for multi-dimensional analysis of data streams

Publication ,  Journal Article
Han, J; Chen, Y; Dong, G; Pei, J; Wah, BW; Wang, J; Cai, YD
Published in: Distributed and Parallel Databases
September 1, 2005

Real-time surveillance systems, telecommunication systems, and other dynamic environments often generate tremendous (potentially infinite) volume of stream data: the volume is too huge to be scanned multiple times. Much of such data resides at rather low level of abstraction, whereas most analysts are interested in relatively high-level dynamic changes (such as trends and outliers). To discover such high-level characteristics, one may need to perform on-line multi-level, multi-dimensional analytical processing of stream data. In this paper, we propose an architecture, called stream_cube, to facilitate on-line, multi-dimensional, multi-level analysis of stream data. For fast online multi-dimensional analysis of stream data, three important techniques are proposed for efficient and effective computation of stream cubes. First, a tilted time frame model is proposed as a multi-resolution model to register time-related data: the more recent data are registered at finer resolution, whereas the more distant data are registered at coarser resolution. This design reduces the overall storage of time-related data and adapts nicely to the data analysis tasks commonly encountered in practice. Second, instead of materializing cuboids at all levels, we propose to maintain a small number of critical layers. Flexible analysis can be efficiently performed based on the concept of observation layer and minimal interesting layer. Third, an efficient stream data cubing algorithm is developed which computes only the layers (cuboids) along a popular path and leaves the other cuboids for query-driven, on-line computation. Based on this design methodology, stream data cube can be constructed and maintained incrementally with a reasonable amount of memory, computation cost, and query response time. This is verified by our substantial performance study. Stream data cube architecture facilitates online analytical processing of stream data. It also forms a preliminary data structure for online stream data mining. The impact of the design and implementation of stream data cube in the context of stream data mining is also discussed in the paper. © 2005 Springer Science + Business Media, Inc.

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Published In

Distributed and Parallel Databases

DOI

EISSN

1573-7578

ISSN

0926-8782

Publication Date

September 1, 2005

Volume

18

Issue

2

Start / End Page

173 / 197

Related Subject Headings

  • Information Systems
  • 4606 Distributed computing and systems software
  • 4605 Data management and data science
  • 0805 Distributed Computing
  • 0804 Data Format
 

Citation

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ICMJE
MLA
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Han, J., Chen, Y., Dong, G., Pei, J., Wah, B. W., Wang, J., & Cai, Y. D. (2005). Scream cube: An architecture for multi-dimensional analysis of data streams. Distributed and Parallel Databases, 18(2), 173–197. https://doi.org/10.1007/s10619-005-3296-1
Han, J., Y. Chen, G. Dong, J. Pei, B. W. Wah, J. Wang, and Y. D. Cai. “Scream cube: An architecture for multi-dimensional analysis of data streams.” Distributed and Parallel Databases 18, no. 2 (September 1, 2005): 173–97. https://doi.org/10.1007/s10619-005-3296-1.
Han J, Chen Y, Dong G, Pei J, Wah BW, Wang J, et al. Scream cube: An architecture for multi-dimensional analysis of data streams. Distributed and Parallel Databases. 2005 Sep 1;18(2):173–97.
Han, J., et al. “Scream cube: An architecture for multi-dimensional analysis of data streams.” Distributed and Parallel Databases, vol. 18, no. 2, Sept. 2005, pp. 173–97. Scopus, doi:10.1007/s10619-005-3296-1.
Han J, Chen Y, Dong G, Pei J, Wah BW, Wang J, Cai YD. Scream cube: An architecture for multi-dimensional analysis of data streams. Distributed and Parallel Databases. 2005 Sep 1;18(2):173–197.
Journal cover image

Published In

Distributed and Parallel Databases

DOI

EISSN

1573-7578

ISSN

0926-8782

Publication Date

September 1, 2005

Volume

18

Issue

2

Start / End Page

173 / 197

Related Subject Headings

  • Information Systems
  • 4606 Distributed computing and systems software
  • 4605 Data management and data science
  • 0805 Distributed Computing
  • 0804 Data Format