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GECCO
2008
Springer
2008
Springer
Rigorous analyses of fitness-proportional selection for optimizing linear functions
Rigorous runtime analyses of evolutionary algorithms (EAs) mainly investigate algorithms that use elitist selection methods. Two algorithms commonly studied are Randomized Local Search (RLS) and the (1+1) EA and it is well known that both optimize any linear pseudoBoolean function on n bits within an expected number of O(n log n) fitness evaluations. In this paper, we analyze variants of these algorithms that use fitness proportional selection. A well-known method in analyzing the local changes in the solutions of RLS is a reduction to the gambler’s ruin problem. We extend this method in order to analyze the global changes imposed by the (1+1) EA. By applying this new technique we show that with high probability using fitness proportional selection leads to an exponential optimization time for any linear pseudo-Boolean function with nonzero weights. Even worse, all solutions of the algorithms during an exponential number of fitness evaluations differ with high probability in li...
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| Added | 09 Nov 2010 |
| Updated | 09 Nov 2010 |
| Type | Conference |
| Year | 2008 |
| Where | GECCO |
| Authors | Edda Happ, Daniel Johannsen, Christian Klein, Frank Neumann |
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