Self-Adjusting Mutation Rates with Provably Optimal Success Rules

Benjamin Doerr; Carola Doerr; Johannes Lengler

doi:10.1007/s00453-021-00854-3

Self-Adjusting Mutation Rates with Provably Optimal Success Rules

Benjamin Doerr
, Carola Doerr
, Johannes Lengler

Research output: Contribution to journal › Article › peer-review

Abstract

The one-fifth success rule is one of the best-known and most widely accepted techniques to control the parameters of evolutionary algorithms. While it is often applied in the literal sense, a common interpretation sees the one-fifth success rule as a family of success-based updated rules that are determined by an update strength F and a success rate. We analyze in this work how the performance of the (1+1) Evolutionary Algorithm on Leading Ones depends on these two hyper-parameters. Our main result shows that the best performance is obtained for small update strengths F= 1 + o(1) and success rate 1/e. We also prove that the running time obtained by this parameter setting is, apart from lower order terms, the same that is achieved with the best fitness-dependent mutation rate. We show similar results for the resampling variant of the (1+1) Evolutionary Algorithm, which enforces to flip at least one bit per iteration.

Original language	English
Pages (from-to)	3108-3147
Number of pages	40
Journal	Algorithmica
Volume	83
Issue number	10
DOIs	https://doi.org/10.1007/s00453-021-00854-3
Publication status	Published - 1 Oct 2021

Keywords

Evolutionary computation
Parameter control
Randomized search heuristics
Runtime analysis

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10.1007/s00453-021-00854-3

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title = "Self-Adjusting Mutation Rates with Provably Optimal Success Rules",

abstract = "The one-fifth success rule is one of the best-known and most widely accepted techniques to control the parameters of evolutionary algorithms. While it is often applied in the literal sense, a common interpretation sees the one-fifth success rule as a family of success-based updated rules that are determined by an update strength F and a success rate. We analyze in this work how the performance of the (1+1) Evolutionary Algorithm on Leading Ones depends on these two hyper-parameters. Our main result shows that the best performance is obtained for small update strengths F= 1 + o(1) and success rate 1/e. We also prove that the running time obtained by this parameter setting is, apart from lower order terms, the same that is achieved with the best fitness-dependent mutation rate. We show similar results for the resampling variant of the (1+1) Evolutionary Algorithm, which enforces to flip at least one bit per iteration.",

keywords = "Evolutionary computation, Parameter control, Randomized search heuristics, Runtime analysis",

author = "Benjamin Doerr and Carola Doerr and Johannes Lengler",

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doi = "10.1007/s00453-021-00854-3",

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AU - Doerr, Carola

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KW - Randomized search heuristics

KW - Runtime analysis

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Self-Adjusting Mutation Rates with Provably Optimal Success Rules

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Keywords

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