TY - JOUR
T1 - The transshipment fund mechanism
T2 - Coordinating the decentralized multilocation transshipment problem
AU - Hanany, Eran
AU - Tzur, Michal
AU - Levran, Alon
PY - 2010/6
Y1 - 2010/6
N2 - The multilocation replenishment and transshipment problem is concerned with several retailers facing random demand for the same item at distinct markets, that may use transshipments to eliminate excess inventory/shortages after demand realization. When the system is decentralized so that each retailer operates to maximize their own profit, there are incentive problems that prevent coordination. These problems arise even with two retailers who may pay each other for transshipped units. We propose a new mechanism based on a transshipment fund, which is the first to coordinate the system, in a fully noncooperative setting, for all instances of two retailers as well as all instances of any number of retailers. Moreover, our mechanism strongly coordinates the system, i.e., achieves coordination as the unique equilibrium. The computation and information requirements of this mechanism are realistic and relatively modest. We also present necessary and sufficient conditions for coordination and prove they are always satisfied with our mechanism. Numerical examples illustrate some of the properties underlying this mechanism for two retailers.
AB - The multilocation replenishment and transshipment problem is concerned with several retailers facing random demand for the same item at distinct markets, that may use transshipments to eliminate excess inventory/shortages after demand realization. When the system is decentralized so that each retailer operates to maximize their own profit, there are incentive problems that prevent coordination. These problems arise even with two retailers who may pay each other for transshipped units. We propose a new mechanism based on a transshipment fund, which is the first to coordinate the system, in a fully noncooperative setting, for all instances of two retailers as well as all instances of any number of retailers. Moreover, our mechanism strongly coordinates the system, i.e., achieves coordination as the unique equilibrium. The computation and information requirements of this mechanism are realistic and relatively modest. We also present necessary and sufficient conditions for coordination and prove they are always satisfied with our mechanism. Numerical examples illustrate some of the properties underlying this mechanism for two retailers.
KW - Incentives and contracting
KW - Supply chain management
KW - Transshipment
UR - http://www.scopus.com/inward/record.url?scp=77953113902&partnerID=8YFLogxK
U2 - 10.1002/nav.20405
DO - 10.1002/nav.20405
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AN - SCOPUS:77953113902
SN - 0894-069X
VL - 57
SP - 342
EP - 353
JO - Naval Research Logistics
JF - Naval Research Logistics
IS - 4
ER -