Title :
An Inherently Stabilizing Algorithm for Node-To-Node Routing over All Shortest Node-Disjoint Paths in Hypercube Networks
Author :
Sinanoglu, Ozgur ; Karaata, Mehmet Hakan ; AlBdaiwi, Bader
Author_Institution :
Comput. Sci. Dept., Kuwait Univ., Safat, Kuwait
fDate :
7/1/2010 12:00:00 AM
Abstract :
The node-disjoint paths problem deals with finding node-disjoint paths from a source node s to target node t, where t ¿ s. Two paths from s to t are said to be node-disjoint iff they do not have any common vertices except for their endpoints. Distributed solutions to the node-disjoint paths problem have numerous applications such as secure message transmission, reliable routing, and network survivability. In this paper, we present a simple distributed algorithm that is both stabilizing and inherently stabilizing under a realistic model that describes system interfaces and implementation issues in detail to route messages over all shortest node-disjoint paths from one process to another in an n-dimensional hypercube network.
Keywords :
distributed algorithms; hypercube networks; network routing; distributed algorithm; distributed solutions; hypercube networks; message transmission security; network survivability; node-disjoint paths problem; node-to-node routing; realistic model; routing reliability; stabilizing algorithm; Delay; Distributed algorithms; Hypercubes; Law; Legal factors; Network coding; Network topology; Optical losses; Peer to peer computing; Routing; Telecommunication traffic; Very large scale integration; Fault-tolerance; hypercube networks; inherent stabilization; node-disjoint paths.; stabilization;
Journal_Title :
Computers, IEEE Transactions on
