Black-box testing is a popular technique for assessing the quality of a system. However, in case of a test failure, only little information is available to identify the root-cause of the test failure. In such cases, additional diagnostic tests may help. We present techniques and a methodology for efficiently conducting diagnostic tests based on explicit fault models. For this, we rely on Model-Based Testing techniques for Labelled Transition Systems. Our techniques rely on, and exploit differences in outputs (or inputs) in fault models, respectively. We characterise the underlying concepts for our techniques both in terms of mathematics and in terms of the modal µ-calculus, which is a powerful temporal logic. The latter characterisations permit the use of efficient, off-the-shelf model checking techniques, leading to provably correct algorithms and pseudo decision procedures for diagnostic testing.
Maxim Gromov, Tim A. C. Willemse