• Documents
  • Authors
  • Tables
  • Other Seers ▼
    RefSeer AckSeer CollabSeer SeerSeer
  • Log in
  • Sign up
  • MetaCart

CiteSeerX logo

Advanced Search Include Citations
Advanced Search Include Citations | Disambiguate

Querying peer-to-peer networks using p-trees (2004)

Cached

  • Download as a PDF

Download Links

  • [www.comp.nus.edu.sg]
  • [www-kiv.zcu.cz]
  • [www-kiv.zcu.cz]
  • [webdb2004.cs.columbia.edu]
  • [www.cs.cornell.edu]
  • [www.cs.cornell.edu]
  • [www.cs.cornell.edu]
  • [www.cs.cornell.edu]
  • [www.cs.cornell.edu]
  • [www.cs.cornell.edu]
  • [www.cs.cornell.edu]
  • [www.cs.cornell.edu]

    • Other Repositories/Bibliography

  • DBLP
  • Save to List
  • Add to Collection
  • Correct Errors
  • Monitor Changes
by Adina Crainiceanu , Prakash Linga , Johannes Gehrke , Jayavel Shanmugasundaram
Venue:In WebDB
Citations:45 - 4 self
  • Summary
  • Active Bibliography
  • Co-citation
  • Clustered Documents
  • Version History

BibTeX

@INPROCEEDINGS{Crainiceanu04queryingpeer-to-peer,
    author = {Adina Crainiceanu and Prakash Linga and Johannes Gehrke and Jayavel Shanmugasundaram},
    title = {Querying peer-to-peer networks using p-trees},
    booktitle = {In WebDB},
    year = {2004},
    pages = {25--30}
}

Years of Citing Articles

Bookmark

citeulike Connotea Bibsonomy Del.icio.us Digg Reddit

OpenURL

 

Abstract

Peer-to-peer (P2P) systems provide a robust, scalable and decentralized way to share and publish data. However, most existing P2P systems only provide a very rudimentary query facility; they only support equality or keyword search queries over files. We believe that future P2P applications, such as resource discovery on a grid, will require more complex query functionality. As a first step towards this goal, we propose a new distributed, fault-tolerant P2P index structure for resource discovery applications called the P-tree. Ptrees efficiently evaluate range queries in addition to equality queries. We describe algorithms to maintain a P-tree under insertions and deletions of data items/peers, and evaluate its performance using both a simulation and a real distributed implementation. Our results show the efficacy of our approach. 1.

Citations

1194 Pastry: Scalable, Decentralized Object Location, and Routing for Large-Scale Peer-to-Peer Systems - Rowstron, Druschel - 2001
501 The ubiquitous B-tree - Comer - 1979
225 P-grid: A self-organizing access structure for p2p information systems - Aberer - 2001
202 Skip graphs - Aspnes, Shah - 2003
75 et al. Chord: A Scalable Peer-to-Peer Lookup Service for Internet Applications - Stoica - 2001
56 et al., “A Scalable Content Addressable Network - Ratnasamy
31 Replicated indexes for distributed data - Lomet - 1996
5 et al. Peper: A distributed range addressing space for p2p systems - Daskos - 2003
4 et al. Approximate range selection queries in peer-to-peer systems - Gupta - 2003
The National Science Foundation
  • About CiteSeerX
  • Submit Documents
  • Privacy Policy
  • Help
  • Data
  • Source
  • Contact Us

Developed at and hosted by The College of Information Sciences and Technology

© 2007-2010 The Pennsylvania State University