Automatically 'Verifying' Discrete-Time Complex Systems through Learning, Abstraction and Refinement

October 20, 2016 Β· Declared Dead Β· πŸ› IEEE Transactions on Software Engineering

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Authors Jingyi Wang, Jun Sun, Shengchao Qin, Cyrille Jegourel arXiv ID 1610.06371 Category cs.SE: Software Engineering Citations 5 Venue IEEE Transactions on Software Engineering Last Checked 4 months ago
Abstract
Precisely modeling complex systems like cyber-physical systems is challenging, which often render model-based system verification techniques like model checking infeasible. To overcome this challenge, we propose a method called LAR to automatically `verify' such complex systems through a combination of learning, abstraction and refinement from a set of system log traces. We assume that log traces and sampling frequency are adequate to capture `enough' behaviour of the system. Given a safety property and the concrete system log traces as input, LAR automatically learns and refines system models, and produces two kinds of outputs. One is a counterexample with a bounded probability of being spurious. The other is a probabilistic model based on which the given property is `verified'. The model can be viewed as a proof obligation, i.e., the property is verified if the model is correct. It can also be used for subsequent system analysis activities like runtime monitoring or model-based testing. Our method has been implemented as a self-contained software toolkit. The evaluation on multiple benchmark systems as well as a real-world water treatment system shows promising results.
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