A system dynamics model of financial flow in supply chains: a case study

Sana, Shib Sankar; Ferro-Correa, Jose; Quintero, Andres; Amaya, Rene

doi:10.1051/ro/2017025

Sana, Shib Sankar ¹ ; Ferro-Correa, Jose ¹ ; Quintero, Andres ¹ ; Amaya, Rene ¹

RAIRO - Operations Research - Recherche Opérationnelle, Tome 52 (2018) no. 1, pp. 187-204.

Résumé

The article discusses the operational and financial relationships among the channel members of a supply chain comprising of a manufacturing company and a distributor. This research simulates the financial system that enables a more accurate diagnosis of disaggregated metrics “Cash to Cash”, considering different interactions between material flow and the financial flow of the two links, manufacturer and distributor. This model considers the feedback loops between material flow models and financial models without which some interactions are lost during simulation. The proposed diagnostic method which incorporates an eclectic process re-engineering practices and state of the art of dynamic simulation with the implementation of advanced techniques of sensitivity and dynamic optimization models those are applied on the concept of stocks and flows. This methodology is used in order to analyze and improve business strategies by generating policies which help to improve cash flow of the company. To validate our model, a case study illustrating the improvement of different metrics of the supply chain is considered here. The results show that the companies have to invest in technology in order to generated strategic decision to enhance their financial metrics.

MR Zbl

DOI : 10.1051/ro/2017025

Classification : 90B05, 91G80, 90B50
Mots clés : Cash flow, systems dynamics, supply chain

Affiliations des auteurs :

Sana, Shib Sankar ¹ ; Ferro-Correa, Jose ¹ ; Quintero, Andres ¹ ; Amaya, Rene ¹

@article{RO_2018__52_1_187_0,
     author = {Sana, Shib Sankar and Ferro-Correa, Jose and Quintero, Andres and Amaya, Rene},
     title = {A system dynamics model of financial flow in supply chains: a case study},
     journal = {RAIRO - Operations Research - Recherche Op\'erationnelle},
     pages = {187--204},
     publisher = {EDP-Sciences},
     volume = {52},
     number = {1},
     year = {2018},
     doi = {10.1051/ro/2017025},
     mrnumber = {3812476},
     zbl = {1394.90044},
     language = {en},
     url = {http://www.numdam.org/articles/10.1051/ro/2017025/}
}

TY  - JOUR
AU  - Sana, Shib Sankar
AU  - Ferro-Correa, Jose
AU  - Quintero, Andres
AU  - Amaya, Rene
TI  - A system dynamics model of financial flow in supply chains: a case study
JO  - RAIRO - Operations Research - Recherche Opérationnelle
PY  - 2018
SP  - 187
EP  - 204
VL  - 52
IS  - 1
PB  - EDP-Sciences
UR  - http://www.numdam.org/articles/10.1051/ro/2017025/
DO  - 10.1051/ro/2017025
LA  - en
ID  - RO_2018__52_1_187_0
ER  -

%0 Journal Article
%A Sana, Shib Sankar
%A Ferro-Correa, Jose
%A Quintero, Andres
%A Amaya, Rene
%T A system dynamics model of financial flow in supply chains: a case study
%J RAIRO - Operations Research - Recherche Opérationnelle
%D 2018
%P 187-204
%V 52
%N 1
%I EDP-Sciences
%U http://www.numdam.org/articles/10.1051/ro/2017025/
%R 10.1051/ro/2017025
%G en
%F RO_2018__52_1_187_0

Sana, Shib Sankar; Ferro-Correa, Jose; Quintero, Andres; Amaya, Rene. A system dynamics model of financial flow in supply chains: a case study. RAIRO - Operations Research - Recherche Opérationnelle, Tome 52 (2018) no. 1, pp. 187-204. doi : 10.1051/ro/2017025. http://www.numdam.org/articles/10.1051/ro/2017025/

Bibliographie
Cité par

[1] C. Bianchi, Introducing SD modelling into planning and control systems to manage SMEs’ growth: a learning-oriented perspective. System Dyn. Rev. 18 (2002) 315–338 | DOI

[2] L.E. Cardenas-Barron, Note on: concurrent pricing and lotsizing for make-to-order contract production. Int. J. Prod. Econ. 103 (2006) 449–450 | DOI

[3] L.E. Cardenas-Barron, Optimal ordering policies in response to a discount offer: extensions. Int. J. Prod. Econ. 122 (2009a) 774–782 | DOI

[4] L.E. Cardenas-Barron, Optimal ordering policies in response to a discount offer: corrections. Int. J. Prod. Econ. 122 (2009b) 783–789 | DOI

[5] M.C. Cooper and L.M. Ellram, Characteristics of supply chain management and the implications for purchasing and logistics strategy. Int. J. Logistics Manag. 4 (1993) 13–24 | DOI

[6] J.J. Ebben and A.C. Johnson, Cash Conversion Cycle Management in Small Firms: Relationships with Liquidity, Invested Capital, and Firm Performance. J. Small Business & Entrepreneurship 24 (2011) 381–396 | DOI

[7] Y. Feng, System Dynamics Modeling for Supply Chain Information Sharing. Physics Procedia 25 (2012) 1463–1469 | DOI

[8] J.W. Forrester, Industrial dynamics: a major breakthrough for decision makers. Harvard Business Review 36 (1958) 37–66

[9] S.R. Golroudbary and S.M. Zahraee, System dynamics model for optimizing the recycling and collection of waste material in a closed-loop supply chain. Simulation Modelling Practice and Theory 53 (2015) 88–102 | DOI

[10] M. Huang, M. Yang, Y. Zhang and B. Liu, System dynamics modeling-based study of contingent sourcing under supply disruptions. Systems Engineering Procedia 4 (2012) 290–297 | DOI

[11] P.D. Hutchison, M.T. Farris Ii and G.M. Fleischman, Supply chain cash-to-cash. Strategic Finance 91 (2009) 41–48

[12] J. Kerr, Streamlining the cash flow. Supply Chain Management Review (2006) 25–31

[13] M.K. Kolay, Managing working capital crises-a system dynamic approach. Manage. Decis. 29 (1991) 46–52 | DOI

[14] J.R. Kroes and A.S. Manikas, Cash flow management and manufacturing firm financial performance: A longitudinal perspective. Int. J. Prod. Econ. 148 (2014) 37–50 | DOI

[15] D. Kumar and D. Kumar, Modelling rural healthcare supply chain in India using system dynamics. Procedia Engineering 97 (2014) 2204–2212 | DOI

[16] S. Kumar and A. Nigmatullin, A system dynamics analysis of food supply chains – case study with non-perishable products. Simul. Model. Practice Theory 19 (2011) 2151–2168 | DOI

[17] T.-L. Lee and N.V. Tunzelmann, A dynamic analytic approach to national innovation systems: The IC industry in Taiwan. Research Policy 34 (2005) 425–440 | DOI

[18] S. Minegishi and D. Thiel, System dynamics modeling and simulation of a particular food supply chain. Simul. Practice and Theory 8(2000) 321–339 | DOI | Zbl

[19] R. Oliva, Model calibration as a testing strategy for system dynamics models. Eur. J. Oper. Res. 151 (2003) 552–568 | DOI | MR | Zbl

[20] M. Ozbayrak, T.C. Papadopoulou and M. Akgun, Systems dynamics modelling of a manufacturing supply chain system. Simulation Modelling Practice and Theory 15 (2007) 1338–1355 | DOI

[21] S. Panda, Coordination of a socially responsible supply chain using revenue sharing contract. Transp. Res. Part-E 67 (2014) 92–104 | DOI

[22] G. Papachristos, Transition inertia due to competition in supply chains with remanufacturing and recycling: A systems dynamicsmodel. Environ. Innov. Soc. Trans. 12 (2014) 47–65 | DOI

[23] M. Pejic-Bach, Surviving in an environment of financial indiscipline: a case study from a transition country. Systems Dyn. Rev. 19 (2003) 47–74 | DOI

[24] N. Petrosky-Nadeau and E. Wasmer, Macroeconomic dynamics in a model of goods, labor and credit market frictions. J. Monetary Econ. 72 (2015) 97–113 | DOI

[25] H. Pierreval, R. Bruniaux and C. Caux, A continuous simulation approach for supply chains in the automotive industry. Simulation Modelling Practice and Theory 15 (2007) 185–198 | DOI

[26] M.J.D. Powell, An efficient method for finding the minimum of a function of several variables without calculating derivatives. The Computer Journal 7 (1964) 155–162 | DOI | MR | Zbl

[27] B. Sarkar, A production-inventory model with probabilistic deterioration in two-echelon supply chain management. Appl. Math. Model. 37 (2013) 3138–3151 | DOI | MR | Zbl

[28] B. Sarkar, S. Saren and H.M. Wee, An inventory model with variable demand, component cost and selling price for deteriorating items. Econ. Model. 30 (2013) 306–310 | DOI

[29] B. Sarkar, B. Ganguly, M. Sarkar and S. Pareek, Effect of variable transportation and carbon emission in a three-echelon supply chain model. Transportation Research Part E: Logistics and Transportation Review 91 (2016) 112–128 | DOI

[30] B. Sarkar, B. Shaw, M. Sarkar, T. Kim and D. Shin, Two echelon supply chain model with variable transportation cost, two-stage inspections, and defective units. J. Indus. Manag. Optim. 13 (2017) 1085–1104 | DOI

[31] J.D. Sterman, Modeling managerial behavior: misperceptions of feedback in a dynamic decision making experiment. Manage. Sci. 35 (1989) 321–339 | DOI

[32] J.D. Sterman, Business dynamics: systems thinking and modeling for a complex world. Irwin McGraw-Hill Boston (2000)

[33] H. Theil, The measurement of inequality by components of income. Econ. Lett. 2 (1979) 197–199 | DOI | MR

[34] R. Thompson, Understanding cash flow: a system dynamic analysis. J. Small Business. Management 24 (1986) 23–29

[35] M. Udenio, J.C. Fransoo and R. Peels, Destocking, the bullwhip effect, and the credit crisis: Empirical modeling of supply chain dynamics. Int. J. Prod. Econ. 160 (2015) 34–46 | DOI

[36] Ventana Systems Inc. (2014). Optimization [Online]. Available on: http://vensim.com/optimization/.

[37] D. Vlachos, P. Georgiadis and E. Iakovou, A system dynamics model for dynamic capacity planning of remanufacturing in closed-loop supply chains. Comput. Oper. Res. 34 (2007) 367–394 | DOI | Zbl

[38] X. Yingliang and A.C.L. Diagram, Application of system dynamics to enterprise financial scenario planning, 4th International Conference on Wireless Communications. Networking and Mobile Computing (2008) 3–7

Cité par Sources :