To study the optimal decisions of suppliers and assemblers in an assembly product supply chain which contains two generations of product. With updated components, a dynamic assembly product supply chain model whose demand is time-varying was built based on product diffusion model. The optimal dynamic pricing decisions and profits of all entities in the supply chain were acquired through theoretical analysis and simulation based on Stackelberg and Nash game. Some insights have been derived: The profits of two assemblers are increased, while two suppliers’ profits are relatively reduced if the two assemblers cooperate with each other. The growth rates of suppliers’ wholesale prices of two generations of products are opposite, and those of assemblers’ retail prices are also opposite whether two assemblers are cooperative or not. With cooperation, the ranges of wholesale prices changing over time are higher, while the ranges of assemblers’ retail prices changing over time are lower than those without cooperation.
| Published in | American Journal of Operations Management and Information Systems (Volume 2, Issue 2) |
| DOI | 10.11648/j.ajomis.20170202.14 |
| Page(s) | 54-71 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2024. Published by Science Publishing Group |
Components Update, Assembly Product Supply Chain, Stackelberg Game, Optimal Pricing
| [1] | Mingming, Leng, and Malunut Parlar. “Game-theoretic analyses of decentralized assembly supply chains: Non-cooperative equilibria vs. coordination with cost-sharing contracts.” European Journal of Operational Research, vol. 204, no. 1, pp, 96-104, 2014. |
| [2] | Lucy Gongtao Chen, Ding Ding, and Jihong Ou. “Power Structure and Profitability in Assembly Supply Chains.” Production and Operations Management, vol. 23, no. 9, pp, 1599-1616, 2014. |
| [3] | Xiang Fang, Jun Ru and Yunzeng Wang. “Optimal Procurement Design of an Assembly Supply Chain with Information Asymmetry.” Production and Operations Management, vol.23, no.12, pp, 2075-2088, 2014. |
| [4] | Xiang Fang, Jun Ru and Yunzeng Wang. “Optimal Procurement Design of an Assembly Supply Chain with Information Asymmetry.” Production and Operations Management, vol. 23, no. 12, pp, 2075-2088, 2014. |
| [5] | Yuyu, Li, and Bo, Huang, “Product selection and pricing policy of ATO manufacturer based on customer choice.” Computer Integrated Manufacturing Systems, vol. 21, no. 11, pp, 3017-3023, 2015. |
| [6] | Yong, Luo, Yamin, Lou, and Shizhao Wang. “Stackelberg Game for Product Renewal in Supply Chain [J].” Discrete Dynamics in Natyre and Society, vol. 4, pp, 1-10, 2013. |
| [7] | Xiongwen, Quan, “The Pricing Game of Updated and Existing Products.” Acta Scientiarum Naturalium University Nankaiensis, vol. 44, no. 3, pp, 1-7, 2014. |
| [8] | Xiongwen, Quan, Jie, Wei, and Fengsheng, Tu, “Optimization of the Launch Time to the Renovation.” Acta Scientiarum Naturalium University Nankaiensis, vol. 41, no. 6, pp, 67-71, 2008. |
| [9] | LuiGi, De Cesare, and Andrea, Di, Liddo, “A Stackelberg Game of Innovation Diffusion: Pricing, Advertising and Subsidy Strategies [J].” International Game Theory Review, vol. 3, no. 4, pp, 325-339, 2001. |
| [10] | Udayan Chanda, “The Dynamic Price-Quality Decision Model for Two Successive Generations of Technology Innovation [J].” International Journal of Innovation and Technology Management, vol. 8, no. 4, pp, 635-660, 2011. |
| [11] | Bass Frank M, “A New Product Growth for Model Consumer Durables [J].” Management Science, vol. 15, no. 5, pp, 215-227, 1969. |
| [12] | John A. Norton, and Frank M. Bass, “A Diffusion Theory Model of Adoption and Substitution for Successive Generations of High-Technology Products [J].” Management Science, vol.33,no.9,pp, 1069-1086,1987. |
| [13] | J. C. Fisher. “A Simple Substitution Model of Technological Change [J].” Technological Forecasting and Social Change, vol.3, pp, 75-88, 1971. |
| [14] | Zhengrui Jiang, and Dipank C. Jain, “A Generalized Norton–Bass Model for Multigeneration Diffusion [J].” Management Science, vol. 58, no. 10, 1887-1897, 2012. |
| [15] | Yuwen Chena, and Janice E. Carrillob, “Single firm product diffusion model for single-function and fusion products [J].” European Journal of Operational Research, vol. 214, no. 2, pp, 232-245, 2011. |
| [16] | Christian Stummera, Elmar Kieslingb, Markus Günthera, and Rudolf Vetscherac. “Innovation diffusion of repeat purchase products in a competitive market: An agent-based simulation approach [J].” European Journal of Operational Research, vol. 245, no. 1, pp, 157-167, 2015. |
| [17] | Avagyan, Vardan, Esteban-Bravo, Mercedes, Vidal-Sanz, Jose M. Licensing radical product innovations to speed up the diffusion [J]. European journal of operational research, 2014, 239(2): 542-555. |
| [18] | Liang Xiaoying, Xie Lei, Yan Houmin. Self-Restraining Bass Models [J]. JOURNAL OF FORECASTING, 2015, 34(6): 472-477. |
| [19] | Hong Jungsik, Koo Hoonyoung, Kim Taegu. Easy, reliable method for mid-term demand forecasting based on the Bass model: A hybrid approach of NLS and OLS [J]. European journal of operational research, 2016, 248(2): 681-690. |
| [20] | Yong, Luo, and Fengsheng Tu, “Supply chain decision model for product renewal based on game theory [J].” ComputerIntegrated Manufacturing System, vol.18, no.9, pp, 2067-2075, 2012. |
| [21] | Yong, Luo, and Fengsheng, Tu, Peng Tiegen, and Weijie. “Hotelling’s Competition for Price and Location of Differentiated Products with Elastic Demand [J].”Acta Scientiarum Naturaliu Uuniversitatis Nankauensis, vol.40, no.4, pp, 78-82, 2007. |
APA Style
Yufang Chen, Yong Luo. (2017). Optimal Dynamic Pricing for Assembly Product Supply Chain. American Journal of Operations Management and Information Systems, 2(2), 54-71. https://doi.org/10.11648/j.ajomis.20170202.14
ACS Style
Yufang Chen; Yong Luo. Optimal Dynamic Pricing for Assembly Product Supply Chain. Am. J. Oper. Manag. Inf. Syst. 2017, 2(2), 54-71. doi: 10.11648/j.ajomis.20170202.14
Share This Article
Twitter
Linked In
Facebook
Copy
Download@article{10.11648/j.ajomis.20170202.14,
author = {Yufang Chen and Yong Luo},
title = {Optimal Dynamic Pricing for Assembly Product Supply Chain},
journal = {American Journal of Operations Management and Information Systems},
volume = {2},
number = {2},
pages = {54-71},
doi = {10.11648/j.ajomis.20170202.14},
url = {https://doi.org/10.11648/j.ajomis.20170202.14},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajomis.20170202.14},
abstract = {To study the optimal decisions of suppliers and assemblers in an assembly product supply chain which contains two generations of product. With updated components, a dynamic assembly product supply chain model whose demand is time-varying was built based on product diffusion model. The optimal dynamic pricing decisions and profits of all entities in the supply chain were acquired through theoretical analysis and simulation based on Stackelberg and Nash game. Some insights have been derived: The profits of two assemblers are increased, while two suppliers’ profits are relatively reduced if the two assemblers cooperate with each other. The growth rates of suppliers’ wholesale prices of two generations of products are opposite, and those of assemblers’ retail prices are also opposite whether two assemblers are cooperative or not. With cooperation, the ranges of wholesale prices changing over time are higher, while the ranges of assemblers’ retail prices changing over time are lower than those without cooperation.},
year = {2017}
}
TY - JOUR T1 - Optimal Dynamic Pricing for Assembly Product Supply Chain AU - Yufang Chen AU - Yong Luo Y1 - 2017/01/25 PY - 2017 N1 - https://doi.org/10.11648/j.ajomis.20170202.14 DO - 10.11648/j.ajomis.20170202.14 T2 - American Journal of Operations Management and Information Systems JF - American Journal of Operations Management and Information Systems JO - American Journal of Operations Management and Information Systems SP - 54 EP - 71 PB - Science Publishing Group SN - 2578-8310 UR - https://doi.org/10.11648/j.ajomis.20170202.14 AB - To study the optimal decisions of suppliers and assemblers in an assembly product supply chain which contains two generations of product. With updated components, a dynamic assembly product supply chain model whose demand is time-varying was built based on product diffusion model. The optimal dynamic pricing decisions and profits of all entities in the supply chain were acquired through theoretical analysis and simulation based on Stackelberg and Nash game. Some insights have been derived: The profits of two assemblers are increased, while two suppliers’ profits are relatively reduced if the two assemblers cooperate with each other. The growth rates of suppliers’ wholesale prices of two generations of products are opposite, and those of assemblers’ retail prices are also opposite whether two assemblers are cooperative or not. With cooperation, the ranges of wholesale prices changing over time are higher, while the ranges of assemblers’ retail prices changing over time are lower than those without cooperation. VL - 2 IS - 2 ER -
Information
Email: