Title :
Task Scheduling on Flow Networks with Temporal Uncertainty
Author :
Hu, Ping ; Dellar, Meaghan ; Hu, Chenyi
Author_Institution :
Dept. of Comput. Sci., Central Arkansas Univ., Conway, AR
Abstract :
This study was motivated by the large-scale evacuations and aftermath relief efforts caused by hurricanes Katrina and Rita in 2005. During large-scale natural disasters, both demands and uncertainties on transportation networks can be pushed to the extreme. The objective of this study is to optimally schedule tasks on a flow network that has temporal uncertainty modeled with interval valued time costs. We apply a fuzzy partial order relation for intervals to extend the Edmonds-Karp max-flow min-cost algorithm in this paper. Then, using the greedy approach, we propose task optimal schedule algorithms on a flow network with temporal uncertainties by utilizing its full capacity with the least possibility of delay in terms of the fuzzy partial order relations of intervals. In addition to the task scheduling algorithms, simple case studies are also provided in this paper
Keywords :
disasters; fuzzy set theory; graph theory; greedy algorithms; minimax techniques; scheduling; transportation; Edmonds-Karp max-flow min-cost algorithm; flow networks; fuzzy partial order relation; greedy approach; interval fuzzy partial order; interval valued time costs; natural disasters; task optimal scheduling; temporal uncertainty; transportation networks; Computational intelligence; Computer science; Hurricanes; Large-scale systems; Optimal scheduling; Processor scheduling; Scheduling algorithm; Telecommunication traffic; US Department of Transportation; Uncertainty; flow network; interval fuzzy partial order; task scheduling;
Conference_Titel :
Foundations of Computational Intelligence, 2007. FOCI 2007. IEEE Symposium on
Conference_Location :
Honolulu, HI
Print_ISBN :
1-4244-0703-6
DOI :
10.1109/FOCI.2007.372158
