A partial robust optimization approach to inventory management for the offline-to-online problem under different selling prices

Hui Yu , Jie Deng

Journal of Systems Science and Systems Engineering ›› 2017, Vol. 26 ›› Issue (6) : 774 -803.

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Journal of Systems Science and Systems Engineering ›› 2017, Vol. 26 ›› Issue (6) :774 -803. DOI: 10.1007/s11518-017-5354-4
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A partial robust optimization approach to inventory management for the offline-to-online problem under different selling prices
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Abstract

This study examines an optimal inventory strategy when a retailer markets a product at different selling prices through a dual-channel supply chain, comprising an online channel and an offline channel. Using the operating pattern of the offline-to-online (O2O) business model, we develop a partial robust optimization (PRO) model. Then, we provide a closed-form solution when only the mean and standard deviation of the online channel demand distribution is known and the offline channel demand follows a uniform distribution (partial robust). Specifically, owing to the good structural properties of the solution, we obtain a heuristic ordering formula for the general distribution case (i.e., the offline channel demand follows a general distribution). In addition, a series of numerical experiments prove the rationality of our conjecture. Moreover, after comparing our solution with other possible policies, we conclude that the PRO approach improves the performance of incorporating the internet into an existing supply chain and, thus, is able to adjust the level of conservativeness of the solution. Finally, in a degenerated situation, we compare our PRO approach with a combination of information approach. The results show that the PRO approach has more “robust” performance. As a result, a reasonable trade-off between robustness and performance is achieved.

Keywords

Supply chain management / partial robust optimization / decision support / inventory / dual-channel

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Hui Yu, Jie Deng. A partial robust optimization approach to inventory management for the offline-to-online problem under different selling prices. Journal of Systems Science and Systems Engineering, 2017, 26(6): 774-803 DOI:10.1007/s11518-017-5354-4

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References

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[1]

Andersson J., Jörnsten K., Nonås S. L., Sandal L., Ubøe J.. A maximum entropy approach to the newsvendor problem with partial information. European Journal of Operational Research, 2013, 228(1): 190-200.

[2]

Aouam T., Muthuraman K., Rardin R. L.. Robust optimization policy benchmarks and modeling errors in natural gas. European Journal of Operational Research, 2016, 250(3): 807-815.

[3]

Ardestani-Jaafari A., Delage E.. Robust optimization of sums of piecewise linear functions with application to inventory problems. Operations Research, 2016, 64(2): 474-494.

[4]

Ben-Tal A., Bertsimas D., Brown D. B.. A soft robust model for optimization under ambiguity. Operations Research, 2010, 58(4): 1220-1234.

[5]

Ben-Tal A., Nemirovski A.. Robust solutions of linear programming problems contaminated with uncertain data. Mathematical Programming, 2000, 88(3): 411-424.

[6]

Ben-Tal A., Nemirovski A.. Selected topics in robust convex optimization. Mathematical Programming, 2008, 112(1): 125-158.

[7]

Bertsimas D., Brown D. B., Caramanis C.. Theory and applications of robust optimization. SIAM Review, 2011, 53(3): 464-501.

[8]

Beyer H. G., Sendhoff B.. Robust optimization-a comprehensive survey. Computer Methods in Applied Mechanics and Engineering, 2007, 196(33): 3190-3218.

[9]

Bortfeld T., Chan T. C., Trofimov A., Tsitsiklis J. N.. Robust management of motion uncertainty in intensity-modulated radiation therapy. Operations Research, 2008, 56(6): 1461-1473.

[10]

Boyd S. P., Kim S. J., Patil D. D., Horowitz M. A.. Digital circuit optimization via geometric programming. Operations Research, 2005, 53(6): 899-932.

[11]

Brynjolfsson E., Smith M. D.. Frictionless commerce? A comparison of Internet and conventional retailers. Management Science, 2000, 46(4): 563-585.

[12]

Cai G.. Channel selection and coordination in dual-channel supply chains. Journal of Retailing, 2010, 86(1): 22-36.

[13]

Cao E.. Coordination of dual-channel supply chains under demand disruptions management decisions. International Journal of Production Research, 2014, 52(23): 7114-7131.

[14]

Cattani K. D., Gilland W. G., Swaminathan J. M., et al. Simchi-Levi D., et al. Coordinating traditional and internet supply chains. Handbook of Quantitative Supply Chain Analysis: Modeling in the E-Business Era, 2004 643-677.

[15]

Chen X., Sun P.. Optimal structural policies for ambiguity and risk averse inventory and pricing models. SIAM Journal on Control and Optimization, 2012, 50(1): 133-146.

[16]

Chung B. D., Yao T., Friesz T. L., Liu H.. Dynamic congestion pricing with demand uncertainty: a robust optimization approach. Transportation Research Part B: Methodological, 2012, 46(10): 1504-1518.

[17]

Fischetti M., Monaci M.. Ahuja R., Mhring R., Zaroliagis C.. Light robustness. Robust and Online Large-Scale Optimization, Lecture Notes in Computer Science, 2009, Berlin, Heidelberg: SpringerVerlag 61-84.

[18]

Goh J., Sim M.. Distributionally robust optimization and its tractable approximations. Operations Research, 2010, 58(4): 902-917.

[19]

Han Q., Du D., Zuluaga L. F.. Technical note-a risk-and ambiguity-averse extension of the max-min newsvendor order formula. Operations Research, 2014, 62(3): 535-542.

[20]

Hazir A., Haouari M., Erel E.. Robust scheduling and robustness measures for the discrete time/cost trade-off problem. European Journal of Operational Research, 2010, 207(2): 633-643.

[21]

Huang W., Swaminathan J. M.. Introduction of a second channel: implications for pricing and profits. European Journal of Operational Research, 2009, 194(1): 258-279.

[22]

Iancu D. A., Trichakis N.. Pareto efficiency in robust optimization. Management Science, 2014, 60(1): 130-147.

[23]

Jafari H., Hejazi S. R., Rasti-Barzoki M.. Pricing decisions in dual-channel supply chain including monopolistic manufacturer and duopolistic retailers: a game-theoretic approach. Journal of Industry, Competition and Trade, 2016, 16(3): 323-343.

[24]

Kalai R., Lamboray C., Vanderpooten D.. Lexicographic a-robustness: an alternative to min-max criteria. European Journal of Operational Research, 2012, 220(3): 722-728.

[25]

Kong Q., Lee C. Y., Teo C. P., Zheng Z.. Scheduling arrivals to a stochastic service delivery system using copositive cones. Operations Research, 2013, 61(3): 711-726.

[26]

Kuznetsova E., Li Y. F., Ruiz C., Zio E.. An integrated framework of agent-based modelling and robust optimization for microgrid energy management. Applied Energy, 2014, 129: 70-88.

[27]

Mahar S., Wright P. D., Bretthauer K. M., Hill R. P.. Optimizing marketer costs and consumer benefits across “clicks” and “bricks”. Journal of the Academy of Marketing Science, 2014, 42(6): 619-641.

[28]

Mak H. Y., Rong Y., Zhang J.. Appointment scheduling with limited distributional information. Management Science, 2014, 61(2): 316-334.

[29]

Panda S., Modak N. M., Sana S. S., Basu M.. Pricing and replenishment policies in dualchannel supply chain under continuous unit cost decrease. Applied Mathematics and Computation, 2015, 256: 913-929.

[30]

Perakis G., Roels G.. Regret in the newsvendor model with partial information. Operations Research, 2008, 56(1): 188-203.

[31]

Popescu I.. A semidefinite programming approach to optimal-moment bounds for convex classes of distributions. Mathematics of Operations Research, 2005, 30(3): 632-657.

[32]

Roy B.. Robustness in operational research and decision aiding: a multi-faceted issue. European Journal of Operational Research, 2010, 200(3): 629-638.

[33]

Saha S.. Channel characteristics and coordination in three-echelon dual-channel supply chain. International Journal of Systems Science, 2016, 47(3): 740-754.

[34]

Scarf H.. Arrow K. J., Karlin S., Scarf H.. A min-max solution of an inventory problem. Studies in the Mathematical Theory of Inventory and Production, 1958, California: Stanford University Press 201-209.
[35]

See C. T., Sim M.. Robust approximation to multiperiod inventory management. Operations Research, 2010, 58(3): 583-594.

[36]

Shang W., Yang L.. Contract negotiation and risk preferences in dual-channel supply chain coordination. International Journal of Production Research, 2015, 53(16): 1-20.

[37]

Smith M.D., Bailey J., Brynjolfsson E.. Brynjolfsson E., Kahin B.. Understanding digital markets: review and assessment. Understanding the Digital Economy, 1999, Cambridge, MA: MIT Press 99-136.
[38]

Vinhas A. S., Heide J. B.. Forms of competition and outcomes in dual distribution channels: the distributor’s perspective. Marketing Science, 2015, 34(1): 160-175.

[39]

Wiesemann W., Kuhn D., Sim M.. Distributionally robust convex optimization. Operations Research, 2014, 62(6): 1358-1376.

[40]

Xiao T., Shi J. J.. Pricing and supply priority in a dual-channel supply chain. European Journal of Operational Research, 2016, 254(3): 813-823.

[41]

Yao T., Mandala S. R., Chung B. D.. Evacuation transportation planning under uncertainty: a robust optimization approach. Networks and Spatial Economics, 2009, 9(2): 171-189.

[42]

Zhu Z., Zhang J., Ye Y.. Newsvendor optimization with limited distribution information. Optimization Methods and Software, 2013, 28(3): 640-667.

[43]

Zuluaga L. F., Peña J. F.. A conic programming approach to generalized Tchebycheff inequalities. Mathematics of Operations Research, 2005, 30(2): 369-388.

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