no. 6
Building a sustainability in a two-echelon closed loop supply chains: a mathematical approach for permissible delay in payment and backlogging
RAIRO. Operations Research, Tome 56 (2022) no. 6, pp. 4145-4180

This paper develops a supply chain framework where payments take place with permissible delays. Unlike other studies, the supply chain is modelled as a closed-loop system, in which returning the products is incorporated into classical supply chain models and the full backorder is permitted. Among the most important research questions is the order amount of chain members to maximize Retailer delays and the profit chains. The study determines the portion of the time interval in which inventory system experiences shortage and determines the optimal replenishment time and the frequency. Ultimately, it was shown that, if the delay from the supplier to the retailer increases, the chain profit also increases. For all three proposed models, a closed-form solution is developed and a solution algorithm is presented. Applying the coordinated model considerably increases the total profit earned by the whole SC as well as all SC members. An example of our model is a bottle supplier for the drink producer. Another example is military oriented. Furthermore, the study elaborates the feasibility of the suggested models by means of some numerical examples and discusses the results using sensitivity analysis.

Reçu le :
Accepté le :
Première publication :
Publié le :
DOI : 10.1051/ro/2022127
Classification : 30-XX, 49-XX
Keywords: Supply chain coordination, environment, delayed payment, VMI, shortage 
@article{RO_2022__56_6_4145_0,
     author = {Lashgari, Mohsen and Sadjadi, Seyed Jafar and Taleizadeh, Ata Allah and Heydari, Mahdi},
     title = {Building a sustainability in a two-echelon closed loop supply chains: a mathematical approach for permissible delay in payment and backlogging},
     journal = {RAIRO. Operations Research},
     pages = {4145--4180},
     year = {2022},
     publisher = {EDP-Sciences},
     volume = {56},
     number = {6},
     doi = {10.1051/ro/2022127},
     mrnumber = {4517328},
     zbl = {1536.90019},
     language = {en},
     url = {https://www.numdam.org/articles/10.1051/ro/2022127/}
}
TY  - JOUR
AU  - Lashgari, Mohsen
AU  - Sadjadi, Seyed Jafar
AU  - Taleizadeh, Ata Allah
AU  - Heydari, Mahdi
TI  - Building a sustainability in a two-echelon closed loop supply chains: a mathematical approach for permissible delay in payment and backlogging
JO  - RAIRO. Operations Research
PY  - 2022
SP  - 4145
EP  - 4180
VL  - 56
IS  - 6
PB  - EDP-Sciences
UR  - https://www.numdam.org/articles/10.1051/ro/2022127/
DO  - 10.1051/ro/2022127
LA  - en
ID  - RO_2022__56_6_4145_0
ER  - 
%0 Journal Article
%A Lashgari, Mohsen
%A Sadjadi, Seyed Jafar
%A Taleizadeh, Ata Allah
%A Heydari, Mahdi
%T Building a sustainability in a two-echelon closed loop supply chains: a mathematical approach for permissible delay in payment and backlogging
%J RAIRO. Operations Research
%D 2022
%P 4145-4180
%V 56
%N 6
%I EDP-Sciences
%U https://www.numdam.org/articles/10.1051/ro/2022127/
%R 10.1051/ro/2022127
%G en
%F RO_2022__56_6_4145_0
Lashgari, Mohsen; Sadjadi, Seyed Jafar; Taleizadeh, Ata Allah; Heydari, Mahdi. Building a sustainability in a two-echelon closed loop supply chains: a mathematical approach for permissible delay in payment and backlogging. RAIRO. Operations Research, Tome 56 (2022) no. 6, pp. 4145-4180. doi: 10.1051/ro/2022127

[1] P. L. Abad and C. Jaggi, A joint approach for setting unit price and the length of the credit period for a seller when end demand is price sensitive. Int. J. Prod. Econ. 83 (2003) 115–122. | DOI

[2] S. Aggarwal and C. Jaggi, Ordering policies of deteriorating items under permissible delay in payments. J. Oper. Res. Soc. 658–662 (1995). | Zbl

[3] S. M. Aljazzar, M. Y. Jaber and S. K. Goyal, Coordination of a two-level supply chain (manufacturer–retailer) with permissible delay in payments. Int. J. Syst. Sci. Oper. Logist. 3 (2016) 176–188.

[4] A. Banerjee, A supplier’s pricing model under a customer’s economic purchasing policy. Omega 14 (1986) 409–414. | DOI

[5] E. Bazan, M. Y. Jaber and S. Zanoni, Carbon emissions and energy effects on a two-level manufacturer-retailer closed-loop supply chain model with remanufacturing subject to different coordination mechanisms. Int. J. Prod. Econ. 183 (2017) 394–408. | DOI

[6] R. L. Bregman, The effect of the timing of disbursements on order quantities. J. Oper. Res. Soc. 43 (1992) 971–977. | Zbl | DOI

[7] C. R. Carter and L. M. Ellram, Reverse logistics: a review of the literature and framework for future investigation. J. Bus. Logist. 19 (1998) 85.

[8] C.-T. Chang, L.-Y. Ouyang and J.-T. Teng, An EOQ model for deteriorating items under supplier credits linked to ordering quantity. Appl. Math. Model. 27 (2003) 983–996. | Zbl | DOI

[9] L.-H. Chen and F.-S. Kang, Integrated vendor–buyer cooperative inventory models with variant permissible delay in payments. Eur. J. Oper. Res. 183 (2007) 658–673. | Zbl | DOI

[10] L.-H. Chen and F.-S. Kang, Integrated inventory models considering permissible delay in payment and variant pricing strategy. Appl. Math. Model. 34 (2010) 36–46. | MR | Zbl | DOI

[11] M.-S. Chern, Q. Pan, J.-T. Teng, Y.-L. Chan and S.-C. Chen, Stackelberg solution in a vendor–buyer supply chain model with permissible delay in payments. Int. J. Prod. Econ. 144 (2013) 397–404. | DOI

[12] M.-S. Chern, Y.-L. Chan, J.-T. Teng and S. K. Goyal, Nash equilibrium solution in a vendor–buyer supply chain model with permissible delay in payments. Comput. Ind. Eng. 70 (2014) 116–123. | DOI

[13] R. Dekker, M. Fleischmann, K. Inderfurth and L. N. Van Wassenhove, Reverse logistics: quantitative models for closed-loop supply chains. Springer Science & Business Media (2013).

[14] Y. Duan, J. Huo, Y. Zhang and J. Zhang, Two level supply chain coordination with delay in payments for fixed lifetime products. Comput. Ind. Eng. 63 (2012) 456–463. | DOI

[15] A. Diabat, A. A. Taleizadeh and M. Lashgari, A lot sizing model with partial downstream delayed payment, partial upstream advance payment, and partial backordering for deteriorating items. J. Manuf. Syst. 45 (2017) 322–342. | DOI

[16] F. Goodarzian, H. Hosseini-Nasab, J. Muñuzuri and M. B. Fakhrzad, A multi-objective pharmaceutical supply chain network based on a robust fuzzy model: A comparison of meta-heuristics. Appl. Soft Comput. 92 (2020) 106331. | DOI

[17] F. Goodarzian, S. F. Wamba, K. Mathiyazhagan and A. Taghipour, A new bi-objective green medicine supply chain network design under fuzzy environment: Hybrid metaheuristic algorithms. Comput. Ind. Eng. (2021) 107535. | DOI

[18] F. Goodarzian, V. Kumar and P. Ghasemi, A set of efficient heuristics and meta-heuristics to solve a multi-objective pharmaceutical supply chain network. Comput. Ind. Eng. 158 (2021) 107389. | DOI

[19] F. Goodarzian, A. A. Taleizadeh, P. Ghasemi and A. Abraham, An integrated sustainable medical supply chain network during COVID-19. Eng. Appl. Artif. Intell. 100 (2021) 104188. | DOI

[20] S. K. Goyal, An integrated inventory model for a single supplier-single customer problem. Int. J. Prod. Res. 15 (1977) 107–111. | DOI

[21] S. K. Goyal, Economic order quantity under conditions of permissible delay in payments. J. Oper. Res. Soc. (1985) 335–338. | Zbl | DOI

[22] S. Hemapriya and R. Uthayakumar, Two echelon supply chain with permissible delay in payments under exponential lead time involving investment for quality improvement and ordering cost reduction. Int. J. Serv. Oper. Manag. 36 (2020) 271–302.

[23] J. Heydari, M. Rastegar and C. H. Glock, A two-level delay in payments contract for supply chain coordination: The case of credit-dependent demand. Int. J. Prod. Econ. 191 (2017) 26–36. | DOI

[24] M. Izadikhah and R. Farzipoor Saen, Developing a linear stochastic two-stage data envelopment analysis model for evaluating sustainability of supply chains: a case study in welding industry. Ann. Oper. Res. (2021) 1–21. | MR | Zbl

[25] M. Izadikhah, E. Azadi, M. Azadi, R. Farzipoor Saen and M. Toloo, Developing a new chance constrained NDEA model to measure performance of sustainable supply chains. Ann. Oper. Res. (2020) 1–29. | MR | Zbl

[26] M. Izadikhah, M. Azadi, M. Toloo and F. K. Hussain, Sustainably resilient supply chains evaluation in public transport: A fuzzy chance-constrained two-stage DEA approach. Appl. Soft Comput. 113 (2021) 107879. | DOI

[27] M. Y. Jaber and I. H. Osman, Coordinating a two-level supply chain with delay in payments and profit sharing. Comput. Ind. Eng. 50 (2006) 385–400. | DOI

[28] A. Jamal, B. Sarker and S. Wang, An ordering policy for deteriorating items with allowable shortage and permissible delay in payment. J. Oper. Res. Soc. 48 (1997) 826–833. | Zbl | DOI

[29] A. Korugan and S. M. Gupta, A multi-echelon inventory system with returns. Comput. Ind. Eng. 35 (1998) 145–148. | DOI

[30] M. Lashgari, A. A. Taleizadeh and A. Ahmadi, Partial up-stream advanced payment and partial down-stream delayed payment in a three-level supply chain. Ann. Oper. Res. 238 (2016) 329–354. | MR | Zbl | DOI

[31] H.-S. Lau and A. H.-L. Lau, The effect of cost disbursement timings in inventory control. J. Oper. Res. Soc. 44 (1993) 739–740. | DOI

[32] J. J. Liao, K. N. Huang, K. J. Chung, S. D. Lin, S. T. Chuang and H. M. Srivastava, Optimal ordering policy in an economic order quantity (EOQ) model for non-instantaneous deteriorating items with defective quality and permissible delay in payments. Revista de la Real Academia de Ciencias Exactas, Fsicas y Naturales. Serie A. Matemáticas 114 (2020) 1–26. | MR | Zbl

[33] S. Mitra, Analysis of a two-echelon inventory system with returns. Omega 37 (2009) 106–115. | DOI

[34] S. Nahmiasj and H. Rivera, A deterministic model for a repairable item inventory system with a finite repair rate. Int. J. Prod. Res. 17 (1979) 215–221. | DOI

[35] L.-Y. Ouyang, C.-H. Ho and C.-H. Su, Optimal strategy for an integrated system with variable production rate when the freight rate and trade credit are both linked to the order quantity. Int. J. Prod. Econ. 115 (2008) 151–162. | DOI

[36] M. Salameh, N. Abboud, A. El-Kassar and R. Ghattas, Continuous review inventory model with delay in payments. Int. J. Prod. Econ. 85 (2003) 91–95. | DOI

[37] S. Sarmah, D. Acharya and S. Goyal, Coordination and profit sharing between a manufacturer and a buyer with target profit under credit option. Eur. J. Oper. Res. 182 (2007) 1469–1478. | Zbl | DOI

[38] D. A. Schrady, A deterministic inventory model for reparable items. Nav. Res. Logist. 14 (1967) 391–398. | DOI

[39] A. A. Taleizadeh, I. Shokr, I. Konstantaras and M. Vafaeinejad, Stock replenishment policies for a vendor-managed inventory in a retailing system. J. Retail. Consum. Serv. 55 (2020) 102137. | DOI

[40] J.-T. Teng, K.-R. Lou and L. Wang, Optimal trade credit and lot size policies in economic production quantity models with learning curve production costs. Int. J. Prod. Econ. 155 (2014) 318–323. | DOI

[41] I. Wangsa, Greenhouse gas penalty and incentive policies for a joint economic lot size model with industrial and transport emissions. Int. J. Ind. Eng. Comput. 8 (2017) 453–480.

[42] J. Wu and Y.-L. Chan, Lot-sizing policies for deteriorating items with expiration dates and partial trade credit to credit-risk customers. Int. J. Prod. Econ. 155 (2014) 292–301. | DOI

[43] X.-L. Wu and J.-C. Zhou, Retailer’s Optimal Ordering Decision with Trade Credit Financing. Paper presented at the Proceedings of the 5th International Asia Conference on Industrial Engineering and Management Innovation (IEMI2014) (2015).

[44] Q. Zhang, M. Dong, J. Luo and A. Segerstedt, Supply chain coordination with trade credit and quantity discount incorporating default risk. Int. J. Prod. Econ. 153 (2014) 352–360. | DOI

Cité par Sources :