Title :
A self-stabilizing algorithm for the maximum flow problem
Author :
Ghosh, Sukumar ; Gupta, Arobinda ; Pemmaraju, Sriram V.
Author_Institution :
Dept. of Comput. Sci., Iowa Univ., Iowa City, IA, USA
Abstract :
The maximum flow problem is a fundamental problem in graph theory and combinatorial optimization with a variety of important applications. Known distributed algorithms for this problem do not tolerate faults or adjust to dynamic changes in network topology. This paper presents the first distributed self-stabilizing algorithm for the maximum flow problem. Starting from an arbitrary state, the algorithm computes the maximum flow in a acyclic network in finitely many steps. Since the algorithm is self-stabilizing, it is inherently tolerant to transient faults and can automatically adjust to topology changes and to changes in other parameters of the problem. A slight modification of the original algorithm is also presented and it is conjectured that the new algorithm computes a maximum flow in arbitrary networks
Keywords :
distributed algorithms; graph theory; optimisation; arbitrary networks; combinatorial optimization; distributed algorithms; fault tolerance; graph theory; maximum flow problem; self-stabilizing algorithm; transient faults; Application software; Cities and towns; Computational modeling; Computer networks; Computer science; Distributed algorithms; Fault tolerance; Graph theory; Network topology;
Conference_Titel :
Computers and Communications, 1995., Conference Proceedings of the 1995 IEEE Fourteenth Annual International Phoenix Conference on
Conference_Location :
Scottsdale, AZ
Print_ISBN :
0-7803-2492-7
DOI :
10.1109/PCCC.1995.472519
