Exact and Heuristic Methods for the Weapon Target Assignment Problem
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The Weapon Target Assignment (WTA) problem is a fundamental problem arising in defense-related applications
of operations research. This problem consists of optimally assigning n weapons to m targets so that the total
expected survival value of the targets after all the engagements is minimum. The WTA problem can be formulated
as a nonlinear integer programming problem and is known to be NP-complete. There do not exist any exact
methods for the WTA problem which can solve even small size problems (for example, with 20 weapons and 20
targets). Though several heuristic methods have been proposed to solve the WTA problem, due to the absence of
exact methods, no estimates are available on the quality of solutions produced by such heuristics. In this paper, we
suggest linear programming, integer programming, and network flow based lower bounding methods using which
we obtain several branch and bound algorithms for the WTA problem. We also propose a network flow based
construction heuristic and a very large-scale neighborhood (VLSN) search algorithm. We present computational
results of our algorithms which indicate that we can solve moderately large size instances (up to 80 weapons and 80
targets) of the WTA problem optimally and obtain almost optimal solutions of fairly large instances (up to 200
weapons and 200 targets) within a few seconds.
Date issued
2004-12-10Series/Report no.
MIT Sloan School of Management Working Paper;4464-03
Keywords
Weapon Target Assignment, WTA, very large-scale neighborhood search algorithm