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GECCO
2009
Springer

String- and permutation-coded genetic algorithms for the static weapon-target assignment problem

14 years 4 months ago
String- and permutation-coded genetic algorithms for the static weapon-target assignment problem
In the Weapon-Target Assignment Problem, m enemy targets are inbound, each with a value Vj representing the damage it may do. The defense has n weapons, and the probability that weapon i will kill target j is pij. The problem is to assign the weapons to targets so as to reduce as much as possible the total expected value of the targets. A greedy heuristic for this problem repeatedly assigns a weapon to a target to maximally degrade the target's value. Two genetic algorithms encode candidate assignments as strings of target labels indexed by weapon labels and as permutations of weapon labels decoded by a greedy algorithm, respectively. Both GAs can be seeded with the greedy heuristic's solution. In comparisons on fifteen randomly-generated problem instances, all the algorithms significantly reduced the hypothetical strikes' values, but the greedy heuristic was both effective and fast, while the seeded permutation-coded GA returned the best results. The times that all the...
Bryant A. Julstrom
Added 16 Aug 2010
Updated 16 Aug 2010
Type Conference
Year 2009
Where GECCO
Authors Bryant A. Julstrom
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