Reducing the Cost of Model-Based Testing through Test Case Diversity
Résumé
Model-based testing (MBT) suffers from two main
problems which in many real world systems make MBT impractical:
scalability and automatic oracle generation. When no automated oracle is
available, or when testing must be performed on actual hardware or a
restricted-access network, for example, only a small set of test cases
can be executed and evaluated. However, MBT techniques usually generate
large sets of test cases when applied to real systems, regardless of the
coverage criteria. Therefore, one needs to select a small enough subset
of these test cases that have the highest possible fault revealing
power. In this paper, we investigate and compare various techniques for
rewarding diversity in the selected test cases as a way to increase the
likelihood of fault detection. We use a similarity measure defined on
the representation of the test cases and use it in several algorithms
that aim at maximizing the diversity of test cases. Using an industrial
system with actual faults, we found that rewarding diversity leads to
higher fault detection compared to the techniques commonly reported in
the literature: coverage-based and random selection. Among the
investigated algorithms, diversification using Genetic Algorithms is the
most cost-effective technique.
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