Effect of crossover operators under multirecombination: weighted tardiness, a test case
In evolutionary algorithms based on genetics, the crossover operation creates individuals by exchange of genes. Selection mechanisms propitiate reproduction of better individuals replace worst ones. Consequently, part of the genetic material contained in these worst individuals vanishes forever. Thi...
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| creator | De San Pedro, M.E. Pandolfi, D. Villagra, A. Lasso, M. Gallard, R.H. |
| description | In evolutionary algorithms based on genetics, the crossover operation creates individuals by exchange of genes. Selection mechanisms propitiate reproduction of better individuals replace worst ones. Consequently, part of the genetic material contained in these worst individuals vanishes forever. This loss of diversity can lead to a premature convergence. To prevent an early convergence to a local optimum under the same selection mechanism then, either a large population size or adequate genetic operators are needed. Multirecombination allows multiple crossover operations on two or more parents each time a new individual is created. In this work, we show the influence on genetic diversity, quality of results and required computational effort, when applying different crossover methods to a set of hard instances, selected as a test case, of the weighted tardiness scheduling problem in single machine environments under multirecombined approaches. A description of the multirecombination variant used, experiments and preliminary results are reported. |
| doi_str_mv | 10.1109/CEC.2004.1330927 |
| format | Conference Proceeding |
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| ispartof | Proceedings of the 2004 Congress on Evolutionary Computation (IEEE Cat. No.04TH8753), 2004, Vol.1, p.699-705 Vol.1 |
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| subjects | Applied sciences Artificial intelligence Computer aided software engineering Computer science control theory systems Convergence Evolutionary computation Exact sciences and technology Genetics Job shop scheduling Manufacturing systems Processor scheduling Production systems Single machine scheduling Testing |
| title | Effect of crossover operators under multirecombination: weighted tardiness, a test case |
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