Pricing decisions in a two-echelon decentralized supply chain using bi-level programming approach

Document Type : Research Paper

Authors

Department of Industrial Engineering, Tarbiat Modares University, Tehran, Iran

Abstract

Pricing is one of the major aspects of decision making in supply chain. In the previous works mostly a centralized environment is considered indicating the retailers cannot independently apply their decisions on the pricing strategy. Although in a two-echelon decentralized environment it may be possible that supply chain contributors have encountered with different market power situations which provide that some of them try to impose their interests in pricing and/or volume of the products. In such situations the leader-follower Stackelberg game or more specifically bi-level programming seems to be the best approach to overcome the problem. Furthermore, in this study we consider the impacts of disruption risk caused by foreign exchange uncertainty on pricing decisions in a multi-product two-echelon supply chain. Also it is assumed that the market is partitioned to domestic and international retailers with segmented market for each retailer. The purpose of this paper is to introduce decisions policy on the pricing such that the utility of both manufacturer and retailers is met. Since the proposed bi-level model is NP-hard, a simulated annealing method combining with Tabu search is proposed to solve the model. A numerical example is presented to investigate the effect of foreign exchange variation on the decision variables through different scenarios. The results from numerical example indicate that the international retailers are indifferent to the manufacture undergoes changes where the domestic retailers react to changes, dramatically.

Keywords

References

Arcelus, F. J., Gor, R., & Srinivasan, G. (2013). Foreign exchange transaction exposure in a newsvendor
setting. European Journal of Operational Research, 227(3), 552-557.
Blalock, G., &Veloso, F. M. (2007). Imports, productivity growth, and supply chain learning. World
Development, 35(7), 1134–1151.
Cao, E., Wan, C., & Lai, M. (2013). Coordination of a supply chain with one manufacturer and multiple
competing retailers under simultaneous demand and cost disruptions. International Journal of Production
Economics, 141, 425–433.
Gao, Y., Zhang, G., Lu, J., & Wee, H. M. (2011). Particle swarm optimization for bi-level pricing
problems in supply chains. Journal of Global Optimization, 51, 245-254.
Glover, F. (1986). Future paths for integer programming and links to artificial intelligence. Computers &
Operations Research, 13, 533-549.
Goh, M., Lim, J. Y. S., & Meng, F. (2007). A stochastic model for risk management in global supply
chain networks. European Journal of Operational Research, 182, 164–173.
Golini, R.,& Kalchschmidt, M. (2011). Moderating the impact of global sourcing on inventories through
supply chain management. International Journal of Production Economics, 133, 86–94.
Gutierrez, G. J.,& Kouvelis, P. (1995). A robustness approach to international sourcing. Annals of
Operations Research, 59, 165-193.
Hammami, R., & Frein, Y. (2014). Redesign of global supply chains with integration of transfer pricing:
Mathematical modeling and managerial insights. International Journal of Production
Economics, 158, 267-277.
Hicks, C. R. (1993).Fundamental concepts in the design of experiments, Fourth ed., New York: Oxford
University Press.
Hishamuddin, H., Sarker, R. A. & Essam, D. (2013). A recovery model for a two-echelon serial supply
chain with consideration of transportation disruption. Computers & Industrial Engineering, 64, 552–561.
Hu, T., Guo, X., Fu, X., & Lv, Y. (2010). A neural network approach for solving linear bilevel
programming problem. Knowledge-Based Systems, 23, 239–242.
Hu, X., &Motwani, J. G. (2014). Minimizing downside risks for global sourcing under price-sensitive
stochastic demand, exchange rate uncertainties, and supplier capacity constraints. International Journal of
Production Economics, 147, 398-409.
Huang, S., Yang, C., & Liu, H. (2013). Pricing and production decisions in a dual-channel supply chain
when production costs are disrupted. Economic Modelling, 30, 521–538.
Lan, K. M., Wen, U. P., Shih, H. S., & Lee, E. S. (2007). A hybrid neural network approach to bilevel
programming problems. Applied Mathematics Letters, 20, 880–884.
Li, J., Wang, S., & Cheng, T. C. E. (2010) Competition and cooperation in a single-retailer two-supplier
supply chain with supply disruption. Int. J. Production Economics, 124, 137–150.
Liu, S.,& Papageorgiou, L. G. (2013). Multiobjective optimisation of production, distribution and capacity
planning of global supply chains in the process industry. Omega, 41, 369–382.
Liu, Z., &Nagurney, A. (2011). Supply chain outsourcing under exchange rate risk and competition.
Omega, 39, 539–549.
Klibi, W., &Martel, A. (2012). Scenario-based Supply Chain Network risk modeling. European Journal of
Operational Research, 223, 644–658.
Koulamas, C., Antony, S. R., & Jaen, R. (1994). A survey of simulated annealing applications to
operations research problems. Omega, 22(1), 41-56.
Kuo, R. J.,& Huang, C. C. (2009). Application of particle swarm optimization algorithm for solving bilevel
linear programming problem. Computers and Mathematics with Applications, 58, 678-685.
Merschmann, U.,& Thonemann, U. W. (2011). Supply chain flexibility, uncertainty and firm
performance: An empirical analysis of German manufacturing firms. International Journal of Production
Economics, 130, 43–53.
Nagurney, A., &Matsypura, D. (2005). Global supply chain network dynamics with multicriteria decisionmaking
under risk and uncertainty. Transportation Research Part E, 41, 585–612.
Nooraie, S. V., & Mellat Parast, M. (2015). A multi-objective approach to supply chain risk management:
Integrating visibility with supply and demand risk. International Journal of Production
Economics, 161, 192-200.
Qu, S. J., Goh, M., De Souza, R., & Wang, T. N. (2014). Proximal Point Algorithms for Convex Multicriteria
Optimization with Applications to Supply Chain Risk Management. Journal of Optimization
Theory and Applications, 163(3), 949-956.
Rajesh, J., Gupta, K., Kusumakar, H. S., Jayarama, V. K., & Kulkarni, B. D. (2003). A tabu search based
approach for solving a class of bilevel programming problems in chemical engineering. Journal of
Heuristics, 9, 307–319.
Sahni, S. (1974). Computationally related problems. SIAM Journal on Computing, 3, 262–279.
Saygılı, H.,& Saygılı, M.(2011).Structural changes in exports of an emerging economy: Case of Turkey.
Structural Change and Economic Dynamics, 22, 342– 360.
Schmitt, A. J., Sun, S A., Snyder, L. V., & Shen, Z. M. (2015). Centralization versus decentralization:
Risk pooling, risk diversification, and supply chain disruptions.Omega, 52, 201-212.
Suzuki, A., Jarvis, L. S.,&Sexton, R. J. (2011). Partial vertical integration, risk shifting, and product
rejection in the high-value export supply chain: the Ghana pineapple sector. World Development, 39(9),
1611–1623.
Talbi, E. (2009).Metaheuristics: from design to implementation, New Jersey:John Wiley & Sons, Inc.,
Hoboken.
Tang, C. S. (2006). Perspectives in supply chain risk management. Int. J. Production Economics, 103,
451–488.
Tang, C.,& Tomlin, B. (2008). The power of flexibility for mitigating supply chain risks. International
Journal of Production Economics, 116, 12–27.
Trkman, P.,& McCormack, K.(2009).Supply chain risk in turbulent environments—A conceptual model
for managing supply chain network risk. Int. J. Production Economics, 119, 247–258.
Wang, G., Wang, X., Wan, Z., & Jia, S. (2007). An adaptive genetic algorithm for solving bilevel linear
programming problem. Applied Mathematics and Mechanics (English Edition), 28(12), 1605–1612.
Wan, Z., Wang, G., & Sun, B. (2013). A hybrid intelligent algorithm by combining particle swarm
optimization with chaos searching technique for solving nonlinear bilevel programming problems. Swarm
and Evolutionary Computation, 8, 26–32.
Weng, U. P., &Huang, A. D. (1996). A simple Tabu Search method to solve the mixed-integer linear
bilevel programming problem. European Journal of Operational Research, 88, 563-571.
Journal of Industrial and Systems Engineering
Volume 8, Issue 1 - Serial Number 1
February 2015
Pages 106-124

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History

  • Receive Date: 17 May 2015
  • Accept Date: 17 May 2015

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