Title :
A Model and Algorithm for Large Scale Stochastic Inventory Routing Problem
Author :
Yu, Yugang ; Chu, Feng ; Chen, Haoxun
Author_Institution :
Charles Delaunay Inst., Univ. de Technol. of Troyes
Abstract :
Inventory routing problem (IRP) is an integration of inventory planning and vehicle routing. In this paper, we consider stochastic IRP (SIRP) where customer demands are stochastic. Due to the complexity of SIRP, an approximate stochastic model is proposed for SIRP with split delivery (SIRPSD) in which no variable is related to a specific vehicle since the vehicles considered are homogeneous. The stochastic model is transformed into an equivalent deterministic model by imposing a service level constraint for each customer and by analytically eliminating the stochastic components in the model. Lagrangian relaxation is used to decompose the deterministic model into inventory and routing subproblems. Based on the solution of the Lagrangian relaxed problem, a near-optimal feasible solution of the SIRPSD is constructed. Numerical testing shows that randomly generated problems with 100 customers and 5 periods can be solved near optimally using our proposed approach in a reasonable computation time
Keywords :
stochastic processes; stock control; transportation; vehicles; Lagrangian relaxation; inventory planning; service level constraint; split delivery; stochastic inventory routing problem; vehicle routing; Costs; Integrated circuit modeling; Inventory control; Lagrangian functions; Large-scale systems; Routing; Stochastic processes; Transportation; Vehicles; Virtual reality; Inventory routing problem; Lagrangian relaxation; split delivery; stochastic demand; vehicle routing problem;
Conference_Titel :
Service Systems and Service Management, 2006 International Conference on
Conference_Location :
Troyes
Print_ISBN :
1-4244-0450-9
Electronic_ISBN :
1-4244-0451-7
DOI :
10.1109/ICSSSM.2006.320640
