References
[1] B. M. BEAMON, Humanitarian relief chains: issues and challenges, Proceedings of the 34th international conference on computers and industrial engineering, University of Washington, 2004, pp. 77-82.
[2] A. BOZORGI-AMIRI, M. JABALAMELI and S. M. AL-E-HASHEM, A multi-objective robust stochastic programming model for disaster relief logistics under uncertainty, OR spectrum, 35 (2013), pp. 905-933.
[3] A. M. CAUNHYE, X. NIE and S. POKHAREL, Optimization models in emergency logistics: A literature review, Socio-Economic Planning Sciences, 46 (2012), pp. 4-13.
[4] M.-S. CHANG, Y.-L. TSENG and J.-W. CHEN, A scenario planning approach for the flood emergency logistics preparation problem under uncertainty, Transportation Research Part E: Logistics and Transportation Review, 43 (2007), pp. 737-754.
[5] A. CLARK and B. CULKIN, A network transshipment model for planning humanitarian relief operations after a natural disaster, Decision Aid Models for Disaster Management and Emergencies, Springer, 2013, pp. 233-257.
[6] J. M. DAY, S. A. MELNYK, P. D. LARSON, E. W. DAVIS and D. C. WHYBARK, Humanitarian and disaster relief supply chains: A matter of life and death, Journal of Supply Chain Management, 48 (2012), pp. 21-36.
[7] V. DE ANGELIS, M. MECOLI, C. NIKOI and G. STORCHI, Multiperiod integrated routing and scheduling of World Food Programme cargo planes in Angola, Computers & Operations Research, 34 (2007), pp. 1601-1615.
[8] L. E. DE LA TORRE, I. S. DOLINSKAYA and K. R. SMILOWITZ, Disaster relief routing: Integrating research and practice, Socio-economic planning sciences, 46 (2012), pp. 88-97.
[9] S. DURAN, M. A. GUTIERREZ and P. KESKINOCAK, Pre-positioning of emergency items for CARE international, Interfaces, 41 (2011), pp. 223-237.
[10] M. HUANG, K. SMILOWITZ and B. BALCIK, Models for relief routing: Equity, efficiency and efficacy, Transportation research part E: logistics and transportation review, 48 (2012), pp. 2-18.
[11] H.-C. JANG, Y.-N. LIEN and T.-C. TSAI, Rescue information system for earthquake disasters based on MANET emergency communication platform, Proceedings of the 2009 International Conference on Wireless Communications and Mobile Computing: Connecting the World Wirelessly, ACM, 2009, pp. 623-627.
[12] Y.-H. LIN, R. BATTA, P. A. ROGERSON, A. BLATT and M. FLANIGAN, A logistics model for emergency supply of critical items in the aftermath of a disaster, Socio-Economic Planning Sciences, 45 (2011), pp. 132-145.
[13] H. O. METE and Z. B. ZABINSKY, Stochastic optimization of medical supply location and distribution in disaster management, International Journal of Production Economics, 126 (2010), pp. 76-84.
[14] P. C. NOLZ, K. F. DOERNER, W. J. GUTJAHR and R. F. HARTL, A bi-objective metaheuristic for disaster relief operation planning, Advances in multi-objective nature inspired computing, Springer, 2010, pp. 167-187.
[15] G.-H. TZENG, H.-J. CHENG and T. D. HUANG, Multi-objective optimal planning for designing relief delivery systems, Transportation Research Part E: Logistics and Transportation Review, 43 (2007), pp. 673-686.
[16] P. VAN HENTENRYCK, R. BENT and C. COFFRIN, Strategic planning for disaster recovery with stochastic last mile distribution, Integration of AI and OR techniques in constraint programming for combinatorial optimization problems, Springer, 2010, pp. 318-333.
[17] W. YI and L. ÖZDAMAR, A dynamic logistics coordination model for evacuation and support in disaster response activities, European Journal of Operational Research, 179 (2007), pp. 1177-1193.
[18] Haghani, Ali, and Abbas Afshar. "Supply chain management in disaster response." (2009).
[19] Pan American Health Organization. Natural disasters: Protecting the public's health. No. 575. Pan American Health Org, 2000.
[20] Alexander, D.E., 1993. Natural disasters. University College London Press. Kluwer, Dordrecht/London, 632, pp.501-520.