Empirically identifying the best genetic algorithm for covering array generation

Yalan, Liang and Nie, Changhai and Kauffman, Jonathan M. and Kapfhammer, Gregory M. and Leung, Hareton

Fast Abstract Compendium of the 3rd International Symposium on Search Based Software Engineering, 2011

Abstract

With their many interacting parameters, modern software systems are highly configurable. Combinatorial testing is a widely used and practical technique that can detect the failures triggered by the parameters and their interactions. One of the key challenges in combinatorial testing is covering array generation, an often expensive process that is not always amenable to automation with greedy methods. Researchers have proposed many techniques to generate covering arrays. As one of the evolutionary search methods, the genetic algorithm often has been effectively applied to solve many complex optimization problems in this and other fields. However, the performance of a genetic algorithm is not always stable and thus significantly impacted by its configurable parameters. Previous studies have not considered either the exploration of the genetic algorithm’s optimal configuration or ways to improve its performance for covering array generation. In order to close this knowledge gap, we designed three classes of experiments (i.e., a pair-wise, base choice, and hill climbing experiment) to systemically examine the impacts of and interactions between the genetic algorithm’s five configurable parameters (i.e., population size, number of generations, crossover probability, mutation probability, and genetic algorithm variant). Overall, the goal of this paper is to answer the following two questions: (1) Is there an improved configuration of a genetic algorithm for a particular pair-wise SUT? and (2) Is there a common improved configuration for all pair-wise SUTs?

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Reference

@inproceedings{Yalan2011,
  author = {Yalan, Liang and Nie, Changhai and Kauffman, Jonathan M. and Kapfhammer, Gregory M. and Leung, Hareton},
  title = {Empirically identifying the best genetic algorithm for covering array generation},
  booktitle = {Fast Abstract Compendium of the 3rd International Symposium on Search Based Software Engineering},
  year = {2011},
  presented = {true}
}