Cumulative Algebraic Signatures for Fast String Search, Protection Against Incidental Viewing and Corruption of Data in an SDDS

Litwin, Witold; Mokadem, Riad; Schwarz, Thomas

Litwin, Witold; Mokadem, Riad; Schwarz, Thomas (2007), Cumulative Algebraic Signatures for Fast String Search, Protection Against Incidental Viewing and Corruption of Data in an SDDS, in Moro, Gianluca; Bergamaschi, Sonia; Joseph, Sam; Morin, Jean-Henry; Ouksel, Aris M., Databases, Information Systems, and Peer-to-Peer Computing International Workshops, DBISP2P 2005/2006, Trondheim, Norway, August 28-29, 2005, Seoul, Korea, September 11, 2006, Revised Selected Papers, Springer : Berlin, p. 155-162. http://dx.doi.org/10.1007/978-3-540-71661-7_14

Type

Communication / Conférence

Date

2007

Conference title

Databases, Information Systems, and Peer-to-Peer Computing International Workshops, DBISP2P 2005/2006

Conference date

2006-09

Conference city

Seoul

Conference country

Corée du Sud

Book title

Databases, Information Systems, and Peer-to-Peer Computing International Workshops, DBISP2P 2005/2006, Trondheim, Norway, August 28-29, 2005, Seoul, Korea, September 11, 2006, Revised Selected Papers

Book author

Moro, Gianluca; Bergamaschi, Sonia; Joseph, Sam; Morin, Jean-Henry; Ouksel, Aris M.

Publisher

Springer

Series title

Lecture Notes in Computer Science

Series number

4125

Published in

Berlin

ISBN

978-3-540-71660-0

Number of pages

418

Pages

155-162

Abstract (EN)

Scalable Distributed Data Structures (SDDS) are a class of data structures for multicomputers (a distributed system of networked computers) that allow data access by key in constant time (independent of the number of nodes in the multicomputer) and parallel search of the data. In order to speed up the parallel search of the data fields of the records, we propose to encode the records of a Scalable Distributed Data Structure (SDDS) using pre-computed algebraic signatures. The encoding / decoding overhead is linear in the size of the records. It speeds up prefix searches, longest prefix matches, and string searches. In addition, the encoding protects the privacy of the SDDS data against the owners of the workstations that make up the multicomputer. Additional encoding protects the integrity of the data against malfunctions.

Subjects / Keywords

SDDS