H. Edwin Romeijn, Dolores Romero Morales
A probabilistic analysis of the multi-period single-sourcing problem
The multi-period single-sourcing problem (MPSSP) is the problem of finding an assignment,
over time, of customers to warehouses such that each customer is assigned to exactly one
warehouse in each period, subject to capacity constraints, such that the total
transportation and inventory costs are minimized. We propose a general stochastic model
for the MPSSP, and derive a tight condition on this stochastic model under which the MPSSP
is feasible with probability 1 when the number of customers goes to infinity. This result
can be used to generate suitable experimental data. Moreover, we show that the normalized
optimal value of the problem converges almost surely to a constant, for which we provide an
explicit expression; this property can be useful in constructing asymptotically optimal
heuristics for the problem. The rate of convergence to the limiting value is illustrated
empirically.