Increased uncertainty is one of the characteristics of product recovery networks. In particular the strategic design of their logistic infrastructure has to take uncertain information into account. In this paper we present stochastic programming based approaches by which a deterministic location model for product recovery network design may be extended to explicitly account for the uncertainties. Such a stochastic model seeks a solution which is appropriately balanced between some alternative scenarios identified by field experts. We apply the stochastic models to a representative real case study on recycling sand from demolition waste in The Netherlands. The interpretation of the results is meant to give more insight into decision-making for reverse logistics.

Location, Reverse logistics, Stochastic programming, Uncertainty
hdl.handle.net/1765/1672
Econometric Institute Research Papers
Erasmus School of Economics

Listes, O.L, & Dekker, R. (2001). Stochastic approaches for product recovery network design: a case study (No. EI 2001-08). Econometric Institute Research Papers. Retrieved from http://hdl.handle.net/1765/1672