DocumentCode
1196943
Title
Efficient approximation of correlated sums on data streams
Author
Ananthakrishna, Rohit ; Das, Abhinandan ; Gehrke, Johannes ; Korn, Flip ; Muthukrishnan, S. ; Srivastava, Divesh
Author_Institution
Dept. of Comput. Sci., Cornell Univ., Ithaca, NY, USA
Volume
15
Issue
3
fYear
2003
Firstpage
569
Lastpage
572
Abstract
In many applications such as IP network management, data arrives in streams and queries over those streams need to be processed online using limited storage. Correlated-sum (CS) aggregates are a natural class of queries formed by composing basic aggregates on (x, y) pairs and are of the form SUM{g(y) : x ≤ f(AGG(x))}, where AGG(x) can be any basic aggregate and f(), g() are user-specified functions. CS-aggregates cannot be computed exactly in one pass through a data stream using limited storage; hence, we study the problem of computing approximate CS-aggregates. We guarantee a priori error bounds when AGG(x) can be computed in limited space (e.g., MIN, MAX, AVG), using two variants of Greenwald and Khanna´s summary structure for the approximate computation of quantiles. Using real data sets, we experimentally demonstrate that an adaptation of the quantile summary structure uses much less space, and is significantly faster, than a more direct use of the quantile summary structure, for the same a posteriori error bounds. Finally, we prove that, when AGG(x) is a quantile (which cannot be computed over a data stream in limited space), the error of a CS-aggregate can be arbitrarily large.
Keywords
Internet; computer network management; routing protocols; IP network management; a priori error bounds; approximate computation; correlated sums approximation; data streams; real data sets; Aggregates; Application software; Computer Society; Computer network management; IP networks; Intelligent networks; Monitoring; Protocols; Telecommunication traffic; Telephony;
fLanguage
English
Journal_Title
Knowledge and Data Engineering, IEEE Transactions on
Publisher
ieee
ISSN
1041-4347
Type
jour
DOI
10.1109/TKDE.2003.1198391
Filename
1198391
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