An extended model for the uncapacitated single allocation hub covering problem in a fuzzy environment. Eydi, A. & Mirakhorli, A. In Lecture Notes in Engineering and Computer Science, volume 2, pages 1346--1349, 2012.
An extended model for the uncapacitated single allocation hub covering problem in a fuzzy environment [link]Paper  abstract   bibtex   
This paper addresses the uncapacitated single allocation hub covering location problem with fuzzy travel time and cover radius. The main objective is to find the minimum number of hubs, considering the maximum allowable travel time. Computational results show that due to uncertainty, number of hubs and the allocation of non-hub nodes to the located hub nodes are changing. CAB data set are used to show the performance and validity of the proposed model.
@inproceedings{ eydi_extended_2012,
  title = {An extended model for the uncapacitated single allocation hub covering problem in a fuzzy environment},
  volume = {2},
  isbn = {9789881925190},
  url = {http://www.scopus.com/inward/record.url?eid=2-s2.0-84867464793&partnerID=tZOtx3y1},
  abstract = {This paper addresses the uncapacitated single allocation hub covering location problem with fuzzy travel time and cover radius. The main objective is to find the minimum number of hubs, considering the maximum allowable travel time. Computational results show that due to uncertainty, number of hubs and the allocation of non-hub nodes to the located hub nodes are changing. {CAB} data set are used to show the performance and validity of the proposed model.},
  booktitle = {Lecture Notes in Engineering and Computer Science},
  author = {Eydi, A. and Mirakhorli, A.},
  year = {2012},
  keywords = {All, Coverage radius, Covering Problem, Discrete, Fuzzified constraints, Fuzzy distance, Fuzzy linear programming, Hub covering problem, Linear programming, Location-allocation},
  pages = {1346--1349}
}
Downloads: 0