K-Bit-Swap: A New Operator For Real-Coded Evolutionary Algorithms
Abstract
There has been a variety of crossover operators proposed for Real-Coded Genetic Algorithms (RCGAs), which recombine values from the same location in pairs of strings. In this article we present a recombination operator for RC- GAs that selects the locations randomly in both parents, and compare it to mainstream crossover operators in a set of experiments on a range of standard multidimensional optimization problems and a clustering problem. We present two variants of the operator, either selecting both bits uniformly at random in the strings, or sampling the second bit from a normal distribution centered at the selected location in the first string. While the operator is biased towards exploitation of fitness space, the random selection of the second bit for swap- ping makes it slightly less exploitation-biased. Extensive statistical analysis using a non-parametric test shows the advantage of the new recombination operators on a range of test functions.
Cite
@article{arxiv.1604.06607,
title = {K-Bit-Swap: A New Operator For Real-Coded Evolutionary Algorithms},
author = {Aram Ter-Sarkisov and Stephen Marsland},
journal= {arXiv preprint arXiv:1604.06607},
year = {2016}
}
Comments
accepted for publication in Soft Computing