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dc.contributor.authorSetiawan, Eko
dc.date.accessioned2017-12-08T03:05:41Z
dc.date.available2017-12-08T03:05:41Z
dc.date.issued2009-12-10
dc.identifier.citationBalcik, B. and Beamon, B.M. (2008). “Facility location in humanitarian relief,” International Journal of Logistics: Research and Applications, 11(2), 101–121. Balcik, B., Beamon, B.M., and Smilowitz, K. (2008). “Last mile distribution in humanitarian relief, ”Journal of Intelligent Transportation Systems, 12(2), 51–63. Barbarosoğlu, Gülay and Arda, Y. (2004). “A two-stage stochastic programming framework for transportation planning in disaster response,” The Journal of the Operational Research Society, 55(1), 43-53. Beamon, B.M. and Kotleba, S.A. (2006). “Inventory modeling for complex emergencies in humanitarian relief operations,” International Journal of Logistics: Research and Applications, 9(1), 1-18. Berman, O., Drezner, Z., and Wesolowsky, G.O. (2007). “The transfer point location problem,” European Journal of Operational Research, 179, 978-989. Berman, O., Drezner, Z., and Wesolowsky, G.O. (2008). “The multiple location of transfer points,” Journal of the Operational Research Society, 59, 805-811. Chiou, Y.C. and Lai, Y.H. (2008). “An integrated multi-objective model to determine the optimal rescue path and traffic controlled arcs for disaster relief operations under uncertainty environments,” Journal of Advanced Transportation, 42(4), 493-519. Davis, J. and Lambert, R. (2002). Engineering in emergencies: A practical guide for relief workers, 2nd ed., London: ITDG Publishing. Doerner, K.F., Gutjahr, W.J., and Nolz, P.C. (2009). “Multi-criteria location planning for public facilities in tsunami-prone coastal areas,” OR Spectrum, 31, 651-678. Drezner, T., Drezner, Z., and Salhi, S. (2006). “A multi-objective heuristic approach for the casualty collection points location problem,” Journal of the Operational Research Society, 57, 727-734. Friedrich, F., Gehbauer, F., and Rickers, U. (2000). “Optimized resource allocation for emergency response after earthquake disasters,” Safety Science, 35, 41-57. Haghani, A. and Oh, S.C. (1996). “Formulation and solution of a multi-commodity, multi-modal network flow model for disaster relief operations,” Transpn. Res-A, 30(3), 231-250. Hsueh, C.F., Chen, H.K., and Chou, H.W., “Dynamic vehicle routing for relief logistics in natural disasters,” in Vehicle Routing Problem, T. Caric and H. Gold, Eds., Croatia: In-Tech, 2007. Jia, H., Ordonez, F., and Dessouky, M. (2007). “A modeling framework for facility location of medical services for large-scale emergencies,” IIE Transactions, 39, 41-55. Lodree Jr., E.J. and Taskin, S. (2009). “Supply chain planning for hurricane response with wind speed information updates,” Computers & Operations Research, 36, 2-15. Lu, Q., George, B., and Shekhar, S., “Capacity constrained routing algorithms for evacuation planning: a summary of results,” in C.B. Medeiros et al, Eds., Lecture Notes in Computer Science Vol. 3633: Advances in Spatial and Temporal Databases, Berlin Heidelberg: Springer-Verlag, 2005. Mete, H.O. and Zabinsky, Z.B. (2009). “Preparing for disasters: Medical supply location and distribution,” to appear in Interfaces. Özdamar, L., Ekinci, E., and Küçükyazici, B. (2004). “Emergency logistics planning in natural disasters,” Annals of Operations Research, 129, 217–245. Özdamar, L. and Yi, W. (2008). “Greedy neighborhood search for disaster relief and evacuation logistics,” IEEE Intelligent Systems, 14–23. Sherali, H.D., Carter, T.B., and Hobeika, A.G. (1991). “A location-allocation model and algorithm for evacuation planning under hurricane/ flood conditions,” Transpn. Res.-B, 25B(6), 439-452. Sheu, J.B. (2007), “An emergency logistics distribution approach for quick response to urgent relief demand in disasters,” Transportation Research Part E, 43, 687–709. Ukkusuri, S.V. and Yushimito, W.F. (2008). “Location routing approach for the humanitarian prepositioning problem,” Transportation Research Record: Journal of the Transportation Research Board, No. 2089, 18-25. Whybark, D.C. (2007). “Issues in managing disaster relief inventories,” International Journal of Production Economics, 108(1-2), 228-235. Yi, W. and Özdamar, L. (2007). “A dynamic logistics coordination model for evacuation and support in disaster response activities,” European Journal of Operational Research, 179, 1177–1193. Yi, W. and Özdamar, L. (2009), “Fuzzy modeling for coordinating logistics in emergencies,” accessed from http://www.fss.uu.nl/ms/cvd/isj/fuzzy.pdf at 28 June 2009. Yi, W. and Kumar, A. (2007). “Ant colony optimization for disaster relief operations,” Transportation Research Part E, 43, 660–672. Yuan, Y. and Wang, D. (2008). “Path selection model and algorithm for emergency logistics management,” Computers & Industrial Engineering, doi:10.1016/j.cie.2008.09.033.in_ID
dc.identifier.issn1978-774X
dc.identifier.urihttp://hdl.handle.net/11617/9441
dc.description.abstractOne stage of disaster relief operations (DRO) is dealing with disaster response, an aspect of which is logistics. This paper firstly presents previous work on logistics in this area, particularly that which relates to natural disasters, into certain classifications. It is found that the distribution practice of disaster relief, the evacuation process of the injured victims, and the determination of temporary medical facilities after natural disaster occurrences can be treated in stages, in which stage I is on the location-allocation aspect whereas stage II is on the routing aspect. A location-allocation model which addresses the first stage of the aforesaid problem is subsequently proposed. The model is mainly characterized by the possibility to carry out both the distribution process of commodities and the evacuation process of victims between a disaster area and a temporary site. In cases where no existing medical facility is allocated to a disaster area, injured victims as well as injury-free sufferers in the area need to be transferred to the same temporary site.in_ID
dc.language.isoenin_ID
dc.publisherProceeding,3rd International Seminar on Industrial Engineering and Managementin_ID
dc.titleA Location-Allocation Model For Relief Distribution and Victim Evacuationin_ID
dc.typeArticlein_ID


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