[1] 代颖,马祖军,刘飞.基于混合遗传算法的制造/再制造集成物流网络优化设计[J]. 计算机集成制造系统,2006,12 (11):1853-1875.[2] 石琴,陈朝阳,覃运梅.多目标物流网络优化模型的研究[J]. 中国管理科学,2005,13(4):40-43.[3] 冯勤超,顾宁生.逆向物流网络优化设计模型[J]. 东南大学学报 (自然科学版),2007,33(11):321-326.[4] Aikens C H. Facility location models for distribution planning [J]. European Journal of Operational Research,1985,22 (3):263-279.[5] 周根贵,曹振宇.遗传算法在逆向物流网络选址问题中的应用研究[J]. 中国管理科学,2005,13(1):42-47.[6] 陈菊,何美玲,牟能治.物流节点最优选址与规模的双层规划模型[J]. 物流商坛,2006,29(129):9-13.[7] 胡长英,刘国山.基于环境角度的双层选址优化模型[J]. 中国管理科学,2007,15(4):59-62.[8] 何波.绿色物流网络系统建模与效率边界分析[J]. 中国管理科学,2012, 20(3):138-144.[9] International Energy Agency. 2010能源技术前景[R]. http://www.iea.org/.[10] Ballot E, Fontane F.Reducing transportation CO2 emissions through pooling of supply networks: Perspectives from a case study in French retail chains [J]. Production Planning&Control, 2010, 21(6): 640-650.[11] Figliozzi M A. The impacts of congestion on time-definitive urban freight distribution networks CO2 emission levels: Results from a case study in Portland, Oregon [J]. Transportation Research Part C,2011, (19): 766-778.[12] Joumard R. Methods of estimation of atmospheric emissions from transport: European scientist network and scientific state-of-the art action COST 319 final report[M]. Bron:INRETS,1999.[13] 丁小东,姚志刚,程高.lingo语言与0-1混合整数规划选址模型的再结合[J]. 物流工程与管理,2009,31(10):72-75.[14] Munuzuri J, Cortés P, Grosso R, et al. Selecting the location of minihubs for freight delivery in congested downtown areas[J]. Journal of Computational Science, 2012(3):228-237.[15] Pan S, Ballot E, Fontane F. The reduction of greenhouse gas emissions from freight transport by pooling supply chains [J]. International Journal of Production Economics, 2010, 10:1-9.[16] Ubeda S,Arcelus F J,Faulin J. Green logistics at Eroski: A case study[J]. International Journal of Production Economics, 2011,131(1):44-51.[17] Byrka J, Aardal K. An optimal bifactor approximation algorithm for the metric uncapacitated facility location problem [J]. SIAM Journal of Computing, 2006, 39(6):2212-2231.[18] Kayikci Y. A conceptual model for intermodal freight logistics centre location decisions [J]. Procedia Social and Behavioral Sciences, 2010,2: 6297-6311.[19] O'Connor K. Global city regions and the location of logistics activity[J]. Journal of Transport Geography, 2010, 18: 354-362.[20] Chen C T. A fuzzy approach to select the location of the distribution center[J]. Fuzzy Sets and Systems, 2001, 118: 65-73. |