Oxfam. Climate alarm: disasters increase as climate change bites (2007) Briefing Paper No.108,Oxfam,Oxford. [2] United Nations.Disaster Risk Reduction: 2007. UN International Strategy for Disaster Reduction, Geneva. [3] Gy?ngyi, Kovacs, Karen M. Spens. Humanitarian logistics in disaster relief operations[J]. International Journal of Physical Distribution Logistics Management 37(2): 99-114. [4] Ardekani S A.Logistics Problems in the Aftermath of the 1985 Mexieo City Earthquake[J].Transportation Quarteriy,1988,42:107-124. [5] Haghani, A., Oh, S.C. Formulation and solution of a multi-commodity, multi-modal network flow model for disaster relief operations[J]. Transportation Research Part A, 1996, 30(3): 231–250. [6] Barbarosoglu G,Arda Y.A two-stage stochastic programming framework for transportation planning in disaster response[J].Journal of the Operational Research Society,2004,55(1):43-53. [7] ?zdamar, L., Ekinci, E., Kü?ükyazici, B. Emergency logistics planning in natural disasters[J]. Annals of Operations Research, 2004, 129 (1):217-245. [8] Sheu JB. An emergency logistics distribution approach for quick response to urgent relief demand in disasters[J]. Transportation Research Part E, 2007, 43(1): 687–709. [9] Wei Yi, Arun Kumar. Ant colony optimization for disaster relief operations[J]. Transportation Research Part E, 2007, 43: 660–672. [10] 郑斌,马祖军,李华俊.应急物流系统中的模糊多目标定位-路径问题研究[J].系统工程,2009,27(8):21-25. Zheng Y, Ma ZJ, Li HJ. Fuzzy Multi-objective Location-routing Problem in Emergency Logistics Systems[J].Systems Engineering, 2009,27(8):21-25. [11] W. B. Langdon, Riccardo Poli. Evolving problems to learn about particle swarm and other optimizers[A], in Proc. CEC-2005 [C], 1:81-88. [12] M. Clerc. Stagnation analysis in particle swarm optimization or what happens when nothing happens. Online at http://clerc.maurice.free.fr/pso/. [13] S. H. Ling, H. H. C. Iu, F. H. F. Leung, et al. Improved hybrid particle swarm optimized wavelet neural network for modeling the development of fluid dispensing for electronic packaging [J]. IEEE Trans. Ind. Electron, 2008, 55(9):3447-3460. [14] L. dos Santos Coelho, B.M. Herrera. Fuzzy identification based on a chaotic particle swarm optimization approach applied to a nonlinear yo-yo motion system [J]. IEEE Trans. Ind. Electron, 2007, 154(6):3234-3245. [15] 李阳,李聚轩,腾立新.大规模灾害救灾物流系统研究[J].资源与环境,2005,23(7):64-67. Li Y, Li JX, Teng LX. Study on Disaster Relief Logistics System Design[J], Resource&Environment, 2005,23(7):64-67. [16 ] Kang Zhuo, L i Yan, L iu Pu et al. A n all2purpo se evolutionary algorithm for solving nonlinear programming problems [ J ].Journal of Computer Research and Development, 2002, 39 (11) :1471-1477. [17] J.Liang,A.K.Qin, Ponnuthurai Nagaratnam Suganthan, et al. Comprehensive learning particle swarm optimizer for global optimization of multimodal functions[J]. IEEE Transaction on Evolutionary Computation, 2006, 10(3): 67-82. [18] Y. Shi and R. Eberhart, A modified particle swarm optimizer [A]. in Proc. IEEE World Congr. Comput. Intell. [C], 1998:69–73. [19] Y. Shi and R. Eberhart, Empirical study of particle swarm optimization [A]. in Proc. IEEE Congr. Evol. Comput[C],1999,(3):1945–1950.
