A joint replenishment production-inventory model as an MMAP[K]/PH[K]/1 queue
Noblesse, Ann M. ; Sonenberg, Nikki ; Boute, Robert ; Lambrecht, Marc R. ; Van Houdt, Benny
Noblesse, Ann M.
Sonenberg, Nikki
Boute, Robert
Lambrecht, Marc R.
Van Houdt, Benny
Citations
Altmetric:
Publication Type
Journal article with impact factor
Editor
Supervisor
Publication Year
2022
Journal
Stochastic Models
Book
Publication Volume
38
Publication Issue
3
Publication Begin page
390
Publication End page
415
Publication NUmber of pages
Collections
Abstract
In this paper we analyse a continuous review finite capacity production-inventory system with two products in inventory. With stochastic order quantities and time between orders, the model reflects a supply chain that operates in an environment with high levels of volatility. The inventory is replenished using an independent order-up-to (s, S) policy or a can-order (s, c, S) joint replenishment policy in which the endogenously determined lead times drive the parameters of the replenishment policy. The production facility is modelled as a multi-type MMAP[K]/PH[K]/1 queue in which there are K possible inventory positions when the order is placed and the age process of the busy queue has matrix-exponential distribution. We characterize the system and determine the steady state distribution using matrix analytic methods. Using numerical methods we obtain the inventory parameters that minimize the total ordering and inventory related costs. We present numerical comparisons of independent and joint replenishment policies with varying lead times, order quantities, and cost reductions. We further demonstrate the interplay between the two products in terms of lead times, order quantities and costs.
Research Projects
Organizational Units
Journal Issue
Keywords
Production-Inventory, Can-Order Policy, Fluid Queues, Multi-Type Queues