A frequency‐based maritime container assignment model

A frequency‐based maritime container assignment model

0.00 Avg rating0 Votes
Article ID: iaor20118672
Volume: 45
Issue: 8
Start Page Number: 1152
End Page Number: 1161
Publication Date: Sep 2011
Journal: Transportation Research Part B
Authors: , , , ,
Keywords: transportation: water, supply & supply chains
Abstract:

This paper transfers the classic frequency‐based transit assignment method of Spiess and Florian to containers demonstrating its promise as the basis for a global maritime container assignment model. In this model, containers are carried by shipping lines operating strings (or port rotations) with given service frequencies. An origin–destination matrix of full containers is assigned to these strings to minimize sailing time plus container dwell time at the origin port and any intermediate transhipment ports. This necessitated two significant model extensions. The first involves the repositioning of empty containers so that a net outflow of full containers from any port is balanced by a net inflow of empty containers, and vice versa. As with full containers, empty containers are repositioned to minimize the sum of sailing and dwell time, with a facility to discount the dwell time of empty containers in recognition of the absence of inventory. The second involves the inclusion of an upper limit to the maximum number of container moves per unit time at any port. The dual variable for this constraint provides a shadow price, or surcharge, for loading or unloading a container at a congested port. Insight into the interpretation of the dual variables is given by proposition and proof. Model behaviour is illustrated by a simple numerical example. The paper concludes by considering the next steps toward realising a container assignment model that can, amongst other things, support the assessment of supply chain vulnerability to maritime disruptions.

Reviews

Required fields are marked *. Your email address will not be published.