Crossover can be constructive when computing unique input–output sequences

Per Lehre; Xin Yao

doi:10.1007/s00500-010-0610-2

Crossover can be constructive when computing unique input–output sequences

Per Lehre, Xin Yao

Computer Science

Research output: Contribution to journal › Article

25 Citations (Scopus)

Abstract

Unique input-output (UIO) sequences have important applications in conformance testing of finite state machines (FSMs). Previous experimental and theoretical research has shown that evolutionary algorithms (EAs) can compute UIOs efficiently on many FSM instance classes, but fail on others. However, it has been unclear how and to what degree EA parameter settings influence the runtime on the UIO problem. This paper investigates the choice of acceptance criterion in the (1 + 1) EA and the use of crossover in the (mu + 1) Steady State Genetic Algorithm. It is rigorously proved that changing these parameters can reduce the runtime from exponential to polynomial for some instance classes of the UIO problem.

Original language	English
Pages (from-to)	1675-1687
Number of pages	13
Journal	Soft Computing
Volume	15
Issue number	9
Early online date	9 Jun 2010
DOIs	https://doi.org/10.1007/s00500-010-0610-2
Publication status	Published - 1 Sept 2011

Keywords

Unique input-output sequences
Crossover operator
Evolutionary algorithms
Finite state machines
Runtime analysis

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10.1007/s00500-010-0610-2

SEBASE: Software Engineered By Automated SEarch
Yao, X.
Engineering & Physical Science Research Council
29/06/06 → 28/12/11
Project: Research Councils

Cite this

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abstract = "Unique input-output (UIO) sequences have important applications in conformance testing of finite state machines (FSMs). Previous experimental and theoretical research has shown that evolutionary algorithms (EAs) can compute UIOs efficiently on many FSM instance classes, but fail on others. However, it has been unclear how and to what degree EA parameter settings influence the runtime on the UIO problem. This paper investigates the choice of acceptance criterion in the (1 + 1) EA and the use of crossover in the (mu + 1) Steady State Genetic Algorithm. It is rigorously proved that changing these parameters can reduce the runtime from exponential to polynomial for some instance classes of the UIO problem.",

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AB - Unique input-output (UIO) sequences have important applications in conformance testing of finite state machines (FSMs). Previous experimental and theoretical research has shown that evolutionary algorithms (EAs) can compute UIOs efficiently on many FSM instance classes, but fail on others. However, it has been unclear how and to what degree EA parameter settings influence the runtime on the UIO problem. This paper investigates the choice of acceptance criterion in the (1 + 1) EA and the use of crossover in the (mu + 1) Steady State Genetic Algorithm. It is rigorously proved that changing these parameters can reduce the runtime from exponential to polynomial for some instance classes of the UIO problem.

KW - Unique input-output sequences

KW - Crossover operator

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KW - Finite state machines

KW - Runtime analysis

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JO - Soft Computing

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ER -

Crossover can be constructive when computing unique input–output sequences

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Keywords

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