Article ID: | iaor19921017 |
Country: | United States |
Volume: | 38 |
Issue: | 6 |
Start Page Number: | 799 |
End Page Number: | 816 |
Publication Date: | Dec 1991 |
Journal: | Naval Research Logistics |
Authors: | Goldberg Matthew S. |
Keywords: | allocation: resources |
This article considers the problem of allocating a fixed budget among alternative air-to-ground weapons. The weapon-budgeting problem is high-dimensional, involving all feasible combinations of aircraft, weapons, and targets. The decision maker’s utility function is defined over kills of the various target types, but it is unrealistic to expect him to write down the mathematical formula for this function. The article suggests two procedures for reducing the dimension of the maximization problem and operating without exact knowledge of the utility function. The first procedure uses successive linear approximations to generate the set of ‘efficient’ or undominated weapon allocations. The second procedure applies separability restrictions to the utility function, thereby reducing the overall maximization problem to a sequence of low-dimensional subproblems.