Title :
Self-stabilizing PIF algorithm in arbitrary rooted networks
Author :
Cournier, Alain ; Datta, Ajoy K. ; Petit, Franck ; Villain, Vincent
Author_Institution :
LaRIA, Picardie Univ., France
Abstract :
We present a deterministic distributed Propagation of Information with Feedback (PIF) protocol in arbitrary rooted networks. The proposed algorithm does not use a preconstructed spanning tree. The protocol is self-stabilizing, meaning that starting from an arbitrary state (in response to an arbitrary perturbation modifying the memory state), it is guaranteed to behave according to its specification. Every PIF wave initiated by the root inherently creates a tree in the graph. So, the tree is dynamically created according to the progress of the PIF wave. This allows our PIF algorithm to take advantage of the relative speed of different components of the network. The proposed algorithm can be easily used to implement any self-stabilizing system which requires a (self-stabilizing) wave protocol running on an arbitrary network
Keywords :
deterministic algorithms; distributed algorithms; protocols; trees (mathematics); Propagation of Information with Feedback protocol; arbitrary rooted networks; deterministic distributed PIF protocol; fault tolerance; self-stabilizing PIF algorithm; self-stabilizing wave protocol; tree; Algorithm design and analysis; Broadcasting; Computer science; Distributed computing; Fault detection; Fault tolerance; Feedback; Intelligent networks; Protocols; Tree graphs;
Conference_Titel :
Distributed Computing Systems, 2001. 21st International Conference on.
Conference_Location :
Mesa, AZ
Print_ISBN :
0-7695-1077-9
DOI :
10.1109/ICDSC.2001.918937
