An Algebraic Framework for Runtime Verification

Runtime verification of programs using rule-based active system

Towards a Runtime Verification Framework for the Ada Programming Language

Runtime verification is an emerging discipline that investigates methods and tools to enable the verification of program properties during the execution of the application. The goal is to complement static analysis approaches, in particular when static verification leads to the explosion of states. Non-functional properties, such as the ones present in real-time systems are an ideal target for ...

Runtime Verification of Safety-Progress Properties

The underlying property, its definition and representation play a major role when monitoring a system. Having a suitable and convenient framework to express properties is thus a concern for runtime analysis. It is desirable to delineate in this framework the spaces of properties for which runtime verification approaches can be applied to. This paper presents a unified view of runtime verificati...

Runtime Verification of Component-Based Systems

Verification of component-based systems still suffers from limitations such as state space explosion since a large number of different components may interact in an heterogeneous environment. Those limitations entail the need for complementary verification methods such as runtime verification based on dynamic analysis and prone to scalability. In this paper, we integrate runtime verification in...

A Unified Approach for Static and Runtime Verification: Framework and Applications

Static verification of software is becoming ever more effective and efficient. Still, static techniques either have high precision, in which case powerful judgements are hard to achieve automatically, or they use abstractions supporting increased automation, but possibly losing important aspects of the concrete system in the process. Runtime verification has complementary strengths and weakness...