We propose a combined approach that permits automated formal verification to be spread across the pre- and post-deployment phases of a system development, with the aim of calibrating the management of the verification burden. Our approach combines standard model checking methods with runtime verification, a relatively novel formal technique that verifies a system during its execution. We carry out our study in terms of the Hennessy-Milner Logic, a branching-time logic for specifying reactive system correctness. Whereas we will be mainly concerned with limiting the model checking verification burden, runtime verification has been shown to handle a strict subset of the expressible properties in our logic of study, posing constraints on what c...
Abstract. This tutorial presents an overview of the field referred as to runtime ver-ification. Runt...
We study μHML (a branching-time logic with least and greatest fixpoints) from a runtime verificatio...
In this chapter, we present a process pattern for model based specification, verification and testin...
We propose a combined approach that permits automated formal verification to be spread across the pr...
AbstractModel-based runtime verification is an extension to the state-of-the-art runtime verificatio...
Abstract. We study µHML (a branching-time logic with least and greatest fixpoints) from a runtime ve...
Abstract. We present a unified semantics for linear temporal logic capturing model checking and runt...
Runtime Verification is a lightweight automatic verification technique. We introduce Assumption-Base...
Runtime Verification is a quickly growing technique for providing many of the guarantees of formal v...
In this paper, a brief account of the field of runtime verification is given. Starting with a defini...
Presented at SEMINAR "ACTION TEMPS RÉEL:INFRASTRUCTURES ET SERVICES SYSTÉMES". 10, Apr, 2015. Brusse...
Runtime Verification is a lightweight technique that complements other verification methods in an ef...
Runtime verification aims to check whether an application executes its behaviour as specified. There...
We present an architecture that enables run-time verification with executable models of behaviour. O...
Runtime verification is an area of formal methods that studies the dynamic analysis of execution tra...
Abstract. This tutorial presents an overview of the field referred as to runtime ver-ification. Runt...
We study μHML (a branching-time logic with least and greatest fixpoints) from a runtime verificatio...
In this chapter, we present a process pattern for model based specification, verification and testin...
We propose a combined approach that permits automated formal verification to be spread across the pr...
AbstractModel-based runtime verification is an extension to the state-of-the-art runtime verificatio...
Abstract. We study µHML (a branching-time logic with least and greatest fixpoints) from a runtime ve...
Abstract. We present a unified semantics for linear temporal logic capturing model checking and runt...
Runtime Verification is a lightweight automatic verification technique. We introduce Assumption-Base...
Runtime Verification is a quickly growing technique for providing many of the guarantees of formal v...
In this paper, a brief account of the field of runtime verification is given. Starting with a defini...
Presented at SEMINAR "ACTION TEMPS RÉEL:INFRASTRUCTURES ET SERVICES SYSTÉMES". 10, Apr, 2015. Brusse...
Runtime Verification is a lightweight technique that complements other verification methods in an ef...
Runtime verification aims to check whether an application executes its behaviour as specified. There...
We present an architecture that enables run-time verification with executable models of behaviour. O...
Runtime verification is an area of formal methods that studies the dynamic analysis of execution tra...
Abstract. This tutorial presents an overview of the field referred as to runtime ver-ification. Runt...
We study μHML (a branching-time logic with least and greatest fixpoints) from a runtime verificatio...
In this chapter, we present a process pattern for model based specification, verification and testin...