Tail Bounds on the Runtime of Categorical Compact Genetic Algorithm

July 10, 2024 ยท Declared Dead ยท ๐Ÿ› Evolutionary Computation

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Authors Ryoki Hamano, Kento Uchida, Shinichi Shirakawa, Daiki Morinaga, Youhei Akimoto arXiv ID 2407.07388 Category cs.NE: Neural & Evolutionary Citations 5 Venue Evolutionary Computation Last Checked 4 months ago
Abstract
The majority of theoretical analyses of evolutionary algorithms in the discrete domain focus on binary optimization algorithms, even though black-box optimization on the categorical domain has a lot of practical applications. In this paper, we consider a probabilistic model-based algorithm using the family of categorical distributions as its underlying distribution and set the sample size as two. We term this specific algorithm the categorical compact genetic algorithm (ccGA). The ccGA can be considered as an extension of the compact genetic algorithm (cGA), which is an efficient binary optimization algorithm. We theoretically analyze the dependency of the number of possible categories $K$, the number of dimensions $D$, and the learning rate $ฮท$ on the runtime. We investigate the tail bound of the runtime on two typical linear functions on the categorical domain: categorical OneMax (COM) and KVal. We derive that the runtimes on COM and KVal are $O(\sqrt{D} \ln (DK) / ฮท)$ and $ฮ˜(D \ln K/ ฮท)$ with high probability, respectively. Our analysis is a generalization for that of the cGA on the binary domain.
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