We consider multi-inventory production systems with control and state constraints dealing with unknown demand or supply levels. Unlike most articles in the literature concerning this class of systems, we cope with uncertainties in an “unknown-but-bounded” fashion, in the sense that each unknown quantity may take any value in an assigned interval. For these situations, we perform a worst-case analysis. We show that a “smallest worst-case inventory level” exists, and it is associated to a steady state control strategy. We then consider the problem of driving the inventory levels to their smallest worst-case values. For this problem, we first give necessary and sufficient conditions, then we show that convergence occurs in a finite number of steps, and we give an upper bound for such a number. This is a conference version of the paper in which the proofs, details and references are included
Least inventory control of multi-storage systems with non-stochastic unknown inputs
UKOVICH, WALTER
1997-01-01
Abstract
We consider multi-inventory production systems with control and state constraints dealing with unknown demand or supply levels. Unlike most articles in the literature concerning this class of systems, we cope with uncertainties in an “unknown-but-bounded” fashion, in the sense that each unknown quantity may take any value in an assigned interval. For these situations, we perform a worst-case analysis. We show that a “smallest worst-case inventory level” exists, and it is associated to a steady state control strategy. We then consider the problem of driving the inventory levels to their smallest worst-case values. For this problem, we first give necessary and sufficient conditions, then we show that convergence occurs in a finite number of steps, and we give an upper bound for such a number. This is a conference version of the paper in which the proofs, details and references are includedPubblicazioni consigliate
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