Tabu search heuristics for the order batching problem in manual order picking systems
S Henn, G Wäscher - European Journal of Operational Research, 2012 - Elsevier
S Henn, G Wäscher
European Journal of Operational Research, 2012•ElsevierIn a manual order picking system, order pickers walk or ride through a distribution
warehouse in order to collect items requested by (internal or external) customers. In order to
perform these operations efficiently, it is usually required that customer orders be combined
into (more substantial) picking orders that are limited in size. The order batching problem
considered in this paper deals with the question of how a given set of customer orders
should be combined into picking orders such that the total length of all picker tours …
warehouse in order to collect items requested by (internal or external) customers. In order to
perform these operations efficiently, it is usually required that customer orders be combined
into (more substantial) picking orders that are limited in size. The order batching problem
considered in this paper deals with the question of how a given set of customer orders
should be combined into picking orders such that the total length of all picker tours …
In a manual order picking system, order pickers walk or ride through a distribution warehouse in order to collect items requested by (internal or external) customers. In order to perform these operations efficiently, it is usually required that customer orders be combined into (more substantial) picking orders that are limited in size. The order batching problem considered in this paper deals with the question of how a given set of customer orders should be combined into picking orders such that the total length of all picker tours necessary for all of the requested items to be collected is minimized. For the solution of this problem the authors suggest two approaches based on the tabu search principle. The first is a (classic) tabu search (TS), and the second is the attribute-based hill climber (ABHC). In a series of extensive numerical experiments, these approaches are benchmarked against other solution methods put forward in the current literature. It is demonstrated that the proposed methods are superior to the existing methods and provide solutions which may allow distribution warehouses to operate more efficiently.
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