Title :
Research on chaos synchronization of bullwhip effect in supply chain
Author :
Renzhong, Liu ; Gongyun, Gu
Author_Institution :
Postdoctoral Res. Center of Law, East China Univ. of Political Sci. & Law, Shanghai, China
Abstract :
We believe that supply chain is a complex and nonlinear system in which chaos is in general prevalent. This paper models the supply chain management with a proposed tri-echelon theoretical framework, showing that it can be transformed into Lorenz equation of state under certain conditions and chaos arises. This article moves one step deeper into the causes and negative impacts of bullwhip effect in a supply chain chaos system. The Radial Basis Function (RBF) neural network parameter - training approach is utilized to dampen bullwhip effect and the methodology is presented for the design of chaos synchronization controller in this article. Simulation test demonstrates that this methodology is effective in that it helps reduce and mitigate bullwhip effect and provide additional insights into theory and practice.
Keywords :
chaos; nonlinear systems; production engineering computing; radial basis function networks; supply chain management; synchronisation; Lorenz equation; RBF neural network parameter; bullwhip effect; chaos arises; chaos synchronization controller; nonlinear system; radial basis function neural network; supply chain; supply chain management; triechelon theoretical framework; Chaos; Control systems; Economics; Mathematical model; Supply chains; Synchronization; bullwhip effects; chaos synchronization; lorenz equation; supply chain;
Conference_Titel :
Product Innovation Management (ICPIM), 2011 6th International Conference on
Conference_Location :
Wuhan
Print_ISBN :
978-1-4577-0359-1
DOI :
10.1109/ICPIM.2011.5983686
