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596 results on '"Joost-Pieter Katoen"'

1. Model Checking Temporal Properties of Recursive Probabilistic Programs

Author

Tobias Winkler, Christina Gehnen, and Joost-Pieter Katoen

Subjects
computer science - formal languages and automata theory, computer science - logic in computer science, Logic, BC1-199, Electronic computers. Computer science, QA75.5-76.95
Abstract

Probabilistic pushdown automata (pPDA) are a standard operational model for programming languages involving discrete random choices and recursive procedures. Temporal properties are useful for specifying the chronological order of events during program execution. Existing approaches for model checking pPDA against temporal properties have focused mostly on $\omega$-regular and LTL properties. In this paper, we give decidability and complexity results for the model checking problem of pPDA against $\omega$-visibly pushdown languages that can be described by specification logics such as CaRet. These logical formulae allow specifying properties that explicitly take the structured computations arising from procedural programs into account. For example, CaRet is able to match procedure calls with their corresponding future returns, and thus allows to express fundamental program properties such as total and partial correctness.

Published
2023
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6. High-level Counterexamples for Probabilistic Automata

Author

Ralf Wimmer, Nils Jansen, Erika Ã?brahÃ?m, and Joost-Pieter Katoen

Subjects
computer science - software engineering, computer science - logic in computer science, Logic, BC1-199, Electronic computers. Computer science, QA75.5-76.95
Abstract

Providing compact and understandable counterexamples for violated system properties is an essential task in model checking. Existing works on counterexamples for probabilistic systems so far computed either a large set of system runs or a subset of the system's states, both of which are of limited use in manual debugging. Many probabilistic systems are described in a guarded command language like the one used by the popular model checker PRISM. In this paper we describe how a smallest possible subset of the commands can be identified which together make the system erroneous. We additionally show how the selected commands can be further simplified to obtain a well-understandable counterexample.

Published
2015
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7. Analysis of Timed and Long-Run Objectives for Markov Automata

Author

Dennis Guck, Hassan Hatefi, Holger Hermanns, Joost-Pieter Katoen, and Mark Timmer

Subjects
computer science - logic in computer science, computer science - formal languages and automata theory, Logic, BC1-199, Electronic computers. Computer science, QA75.5-76.95
Abstract

Markov automata (MAs) extend labelled transition systems with random delays and probabilistic branching. Action-labelled transitions are instantaneous and yield a distribution over states, whereas timed transitions impose a random delay governed by an exponential distribution. MAs are thus a nondeterministic variation of continuous-time Markov chains. MAs are compositional and are used to provide a semantics for engineering frameworks such as (dynamic) fault trees, (generalised) stochastic Petri nets, and the Architecture Analysis & Design Language (AADL). This paper considers the quantitative analysis of MAs. We consider three objectives: expected time, long-run average, and timed (interval) reachability. Expected time objectives focus on determining the minimal (or maximal) expected time to reach a set of states. Long-run objectives determine the fraction of time to be in a set of states when considering an infinite time horizon. Timed reachability objectives are about computing the probability to reach a set of states within a given time interval. This paper presents the foundations and details of the algorithms and their correctness proofs. We report on several case studies conducted using a prototypical tool implementation of the algorithms, driven by the MAPA modelling language for efficiently generating MAs.

Published
2014
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8. Model Checking of Continuous-Time Markov Chains Against Timed Automata Specifications

Author

Taolue Chen, Tingting Han, Joost-Pieter Katoen, and Alexandru Mereacre

Subjects
computer science - logic in computer science, d.2.4, Logic, BC1-199, Electronic computers. Computer science, QA75.5-76.95
Abstract

We study the verification of a finite continuous-time Markov chain (CTMC) C against a linear real-time specification given as a deterministic timed automaton (DTA) A with finite or Muller acceptance conditions. The central question that we address is: what is the probability of the set of paths of C that are accepted by A, i.e., the likelihood that C satisfies A? It is shown that under finite acceptance criteria this equals the reachability probability in a finite piecewise deterministic Markov process (PDP), whereas for Muller acceptance criteria it coincides with the reachability probability of terminal strongly connected components in such a PDP. Qualitative verification is shown to amount to a graph analysis of the PDP. Reachability probabilities in our PDPs are then characterized as the least solution of a system of Volterra integral equations of the second type and are shown to be approximated by the solution of a system of partial differential equations. For single-clock DTA, this integral equation system can be transformed into a system of linear equations where the coefficients are solutions of ordinary differential equations. As the coefficients are in fact transient probabilities in CTMCs, this result implies that standard algorithms for CTMC analysis suffice to verify single-clock DTA specifications.

Published
2011
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