论文信息 - Self-Stabilizing Ring Networks on Connected Graphs

Self-Stabilizing Ring Networks on Connected Graphs

Large networks require scalable routing. Traditionally, protocol overhead is reduced by introducing a hierarchy. This requires aggregation of nearby nodes under a common address prefix. In fixed networks, this is achieved administratively, whereas in wireless ad-hoc networks, dynamic assignments of nodes to aggregation units are required. As a result of the nodes commonly being assigned a randomnetwork address, themajority of proposed ad-hoc routing protocols discovers routes between end nodes by flooding, thus limiting the network size. Peer-to-peer (P2P) overlay networks offer scalable routing solutions by employing virtualized address spaces, yet assume an underlying routing protocol for end-to-end connectivity. We investigate a cross-layer approach to P2P routing, where the virtual address space is implemented with a network-layer routing protocol by itself. The Iterative Successor Pointer Rewiring Protocol (ISPRP) efficiently initializes a ring-structured network among nodes having but link-layer connectivity. It is fully self-organizing and issues only a small per-node amount of messages by keeping interactions between nodes as local as possible. The main contribution of this paper is a proof that ISPRP is self-stabilizing, that is, starting from an arbitrary initial state, the protocol lets the network converge into a correct state within a bounded amount of time.

Thomas Fuhrmann | Curt Cramer | T. Fuhrmann | Curt Cramer

[1] Charles E. Perkins,et al. Ad Hoc Networking , 2001 .

[2] David R. Karger,et al. Chord: A scalable peer-to-peer lookup service for internet applications , 2001, SIGCOMM '01.

[3] Antony I. T. Rowstron,et al. Pastry: Scalable, Decentralized Object Location, and Routing for Large-Scale Peer-to-Peer Systems , 2001, Middleware.

[4] Thomas Fuhrmann,et al. ISPRP: a message-efficient protocol for initializing structured P2P networks , 2005, PCCC 2005. 24th IEEE International Performance, Computing, and Communications Conference, 2005..

[5] Himabindu Pucha,et al. Exploiting the Synergy between Peer-to-Peer and Mobile Ad Hoc Networks , 2003, HotOS.

[6] Himabindu Pucha,et al. Ekta: an efficient DHT substrate for distributed applications in mobile ad hoc networks , 2004, Sixth IEEE Workshop on Mobile Computing Systems and Applications.

[7] Peter Druschel,et al. Pastry: Scalable, distributed object location and routing for large-scale peer-to- , 2001 .

[8] Michalis Faloutsos,et al. PeerNet: Pushing Peer-to-Peer Down the Stack , 2003, IPTPS.

[9] Shlomi Dolev,et al. Self Stabilization , 2004, J. Aerosp. Comput. Inf. Commun..

[10] Bryan Ford,et al. Unmanaged Internet Protocol , 2004, Comput. Commun. Rev..

[11] Thomas Fuhrmann,et al. Communication Networks On the fundamental communication abstraction supplied by P2P overlay networks , 2006, Eur. Trans. Telecommun..