9Sundarakani B, Souza de R, Goh M, Wagner S M, Manikandan S. Modeling carbon footprints across the supply chain [J]. Production Economics, 2010,128 : 43-50.
10Krikke H. Impact of closed-loop network con? gurations on carbon footprints: A case study in copiers [J]. Resources, Conservation and Recycling, 2010,55 : 1196-1205.
1Agatz N, Campbell A M. Challenges and opportunities in attended home delivery[J]. Operations Research/Computer Science Interfaces, 2008, 43: 379-396.
2Ballot 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): 644.
3Pan S, Ballot E, Fontane F. The reduction of greenhouse gas emissions from freight transport by pooling supply chains[J]. Int J of Production Economics, 2013, 143(1): 86- 94.
4Hoen K, Tan T, Fransoo J C, et al. Effect of carbon emission regulations on transport mode selection under stochastic demand[R]. Eindhoven: School of Industrial Engineering, Eindhoven University of Technology, 2011.
5Matthews H S, Hendrickson C T, Weber C L. The importance of carbon footprint estimation boundaries[J]. Environmental Science & Technology, 2008, 42(16): 5839- 5842.
6Hsu C W, Kuo T C, Chert S H, et al. Using DEMATEL to develop a carbon management model of supplier selection in green supply chain management[J]. J of Cleaner Production, 2013, 56(1): 164-172.
7Caro F, Corbett C, Tan T, et al. Carbon-optimal and carbon- neutral supply chains[R]. Los Angeles: Anderson School of Management, UCLA, 2011.
8Samir Elhedhli, Ryan Merrick. Green supply chain network design to reduce carbon emissions[J]. Transportation Research Part D, 2012, 17(5): 370-379.
9Xiao Y Y, Zhao Q H, Kaku L, et al. Development of a fuel consumption optimization model for the capacitated vehicle routing problem[J]. Computers & Operations Research, 2012, 39(7): 1419-1431.
10Pardalos P, Rosen J. Methods for global concave minimization: A bibliographic survey[J]. SIAM Review, 1986, 28 (3): 367-379.