International Journal of Image, Graphics and Signal Processing (IJIGSP)
IJIGSP Vol. 1, No. 1, 8 Oct. 2009
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Mechanism and Algorithm for Indirect Schema Mapping Composition
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Index Terms
Indirect mapping composition, combination operation, schema element back
Abstract
There are a large number of indirect schema mappings between peers in the network. To improve the efficiency of data exchange and queries, indirect mappings are needed to be composed. Direct mappings can be derived directly by the constraints defined between schemas, but not for indirect mappings’ composition. Defined the combination operations of schema elements in indirect mappings, and gave the expression of indirect mappings. Analyzed the composition of indirect mappings, and proposed a strategy, named schema element back, to solve the problem of indirect mapping composition, and gave the indirect mapping composition generation algorithm based on such strategy. Experiments showed that indirect mapping composition can improve the efficiency of data exchange, and compared with other non-full mapping composition generation algorithms, and indirect mapping composition generated by our algorithm based on schema element back strategy can completely eliminate the infection of media schema with no reduction of the composition efficiency.
Cite This Paper
Bo Wang,Bo Guo, "Mechanism and Algorithm for Indirect Schema Mapping Composition", IJIGSP, vol.1, no.1, pp.50-58, 2009. DOI: 10.5815/ijigsp.2009.01.07
Reference
[1]A. Fuxman, M. A. Hernández, C. T. H. Ho, R. J. Miller, P. Papotti, L. Popa. Nested Mappings: Schema Mapping Reloaded. [C], VLDB 2006, Seoul Korea, 67-68,2006
[2]P. A. Berstein, S. Melnik. Model Management 2.0: Manipulating Richer Mappings [C], SIGMOD, Beijing, China, 1-12,2007
[3]P. A. Berstein, T. J. Green, S. Melnik. Implementing mapping composition [J]. VLDB Journal, 2008,17): 333-353
[4]R. Fagin, P. G. Kolaitis, L. Popa. Composing Schema Mappings: Second-Order Dependencies to the Rescue [J]. ACM TODS, 2005, 30 (4): 994-1055
[5]J. Madhavan, A. Y. Halevy. Composing Mappings Among Data Sources [C], VLDB 03, Berlin, Germany, 572-583,2003
[6]P. McBrien, A. Poulovassilis. Data Integration by Bi-Directional Schema Transformation Rules [C], ICDE03, Boston, 227-238,2003
[7]A. Nash. Foundations of Information Integration, SAN DIEGO, UNIVERSITY OF CALIFORNIA, 2006
[8]A. Nash, P. A. Berstein, S. Melnik. Composition of Mappings Given by Embedded Dependencies [C], PODS 2005, Baltimore, Maryland, USA, 2005
[9]M. Boyd, S. Kittivoravitkul, C. Lazanitis, P. McBrien, N. Rizopoulos. AutoMed: A BAV Data Integration System for Heterogeneous Data Sources [C], CAiSE04, Riga Latvia, 3084,82-97,2004
[10]M. Boyd, P. McBrien. Comparing and Transforming Between Data Models via an Intermediate Hypergraph Data Model [J]. COMPUTER SCIENCE, 2005, 3730 (69-109)
[11]LiXu, D. W. Embley. A Composite Approach to Automating Direct and Indirect Schema Mappings [J]. information System, 2006, 31 (8): 697-132
[12]L. Popa, Y. Velegrakis, R. J.Miller, M. A. Hernandez, R. Fagin. Translating Web Data [C], Proceedings of the 28th VLDB Conferences(VLDB'02) Hong Kong, China, 598-609,2002
[13]M. Lenzerini. Data Integration: A Theoretical Perspective [C], PODS'02, 233-246,2002
[14]Y. Velegrakis, R. J.Miller, L. Popa. Mapping Adaptation under Evolving Schemas [C], 29th VLDB Conference, Berlin, Germany, 2003
[15]R. Fagin, P. G. Kolaitis, R. J.Miller, L. Popa. Data Exchange: Semantics and Query Answer. [J]. Theoretical Computer Science 2005, 336 (89-124)