Investigation of influence of modeling fidelities on supply chain dynamics

Jayendran Venkateswaran; Young Jun Son; Boonserm Kulvatunyou

Investigation of influence of modeling fidelities on supply chain dynamics

Jayendran Venkateswaran, Young Jun Son, Boonserm Kulvatunyou

Systems and Industrial Engineering

Research output: Contribution to journal › Conference article

13 Scopus citations

Abstract

In this paper, a three-echelon supply chain model is analyzed to determine strategies to reduce the supply chain system dynamics. Uniqueness of this research stems from the use of multiple models with varying degrees of detail representing the same supply chain. The significance of a detailed supply chain model on the quality of result is made clear. Factors employed to build an abstract to a detailed model include: transportation and production delay, demand at the retailer, and production and transportation capacity. It is shown that the system dynamics itself varies with increasing detail in the model. In addition, it is examined to see if a strategy found effective in improving the system dynamics with an abstract model is effective with a detailed model. It is established that the strategy found to be the most effective on an abstract model is not always the best strategy for the real supply chain.

Original language	English (US)
Pages (from-to)	1183-1191
Number of pages	9
Journal	Winter Simulation Conference Proceedings
Volume	2
State	Published - Dec 1 2002
Event	Proceedings of the 2002 Winter Simulation Conference - San Diego, CA, United States Duration: Dec 8 2002 → Dec 11 2002

ASJC Scopus subject areas

Software
Modeling and Simulation
Safety, Risk, Reliability and Quality
Chemical Health and Safety
Applied Mathematics

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Venkateswaran, J., Son, Y. J., & Kulvatunyou, B. (2002). Investigation of influence of modeling fidelities on supply chain dynamics. Winter Simulation Conference Proceedings, 2, 1183-1191.

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abstract = "In this paper, a three-echelon supply chain model is analyzed to determine strategies to reduce the supply chain system dynamics. Uniqueness of this research stems from the use of multiple models with varying degrees of detail representing the same supply chain. The significance of a detailed supply chain model on the quality of result is made clear. Factors employed to build an abstract to a detailed model include: transportation and production delay, demand at the retailer, and production and transportation capacity. It is shown that the system dynamics itself varies with increasing detail in the model. In addition, it is examined to see if a strategy found effective in improving the system dynamics with an abstract model is effective with a detailed model. It is established that the strategy found to be the most effective on an abstract model is not always the best strategy for the real supply chain.",

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N2 - In this paper, a three-echelon supply chain model is analyzed to determine strategies to reduce the supply chain system dynamics. Uniqueness of this research stems from the use of multiple models with varying degrees of detail representing the same supply chain. The significance of a detailed supply chain model on the quality of result is made clear. Factors employed to build an abstract to a detailed model include: transportation and production delay, demand at the retailer, and production and transportation capacity. It is shown that the system dynamics itself varies with increasing detail in the model. In addition, it is examined to see if a strategy found effective in improving the system dynamics with an abstract model is effective with a detailed model. It is established that the strategy found to be the most effective on an abstract model is not always the best strategy for the real supply chain.

AB - In this paper, a three-echelon supply chain model is analyzed to determine strategies to reduce the supply chain system dynamics. Uniqueness of this research stems from the use of multiple models with varying degrees of detail representing the same supply chain. The significance of a detailed supply chain model on the quality of result is made clear. Factors employed to build an abstract to a detailed model include: transportation and production delay, demand at the retailer, and production and transportation capacity. It is shown that the system dynamics itself varies with increasing detail in the model. In addition, it is examined to see if a strategy found effective in improving the system dynamics with an abstract model is effective with a detailed model. It is established that the strategy found to be the most effective on an abstract model is not always the best strategy for the real supply chain.

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