Probabilistic Model Checking

C 2018

Probabilistic Model Checking

BAIER, Christel, Luca DE ALFARO, Vojtěch FOREJT and Marta KWIATKOWSKA

Basic information

Original name

Probabilistic Model Checking

Authors

BAIER, Christel, Luca DE ALFARO, Vojtěch FOREJT and Marta KWIATKOWSKA

Edition

Germany, Handbook of Model Checking, 39 pp. 2018

Publisher

Springer

Other information

Language

English

Type of outcome

Kapitola resp. kapitoly v odborné knize

Field of Study

10201 Computer sciences, information science, bioinformatics

Country of publisher

Germany

Confidentiality degree

není předmětem státního či obchodního tajemství

Organization unit

Faculty of Informatics

ISBN

978-3-319-10575-8

Keywords in English

model checking; ltl; pctl

Abstract

V originále

The model-checking approach was originally formulated for verifying qualitative properties of systems, for example safety and liveness, and subsequently extended to also handle quantitative features, such as real-time, continuous flows, as well as stochastic phenomena, where system evolution is governed by a given probability distribution. Probabilistic model-checking aims to establish the correctness of probabilistic system models against quantitative probabilistic specifications, such as those capable of expressing, e.g., the probability of an unsafe event occurring, expected time to termination, or expected power consumption in the start-up phase. In this chapter, we present the foundations of probabilistic model-checking, focusing on finite-state Markov decision processes as models and quantitative properties expressed in probabilistic temporal logic. Markov decision processes can be thought of as a probabilistic variant of labelled transition systems in the following sense: transitions are labelled with actions, which can be chosen nondeterministically, and successor states for the chosen action are specified by means of discrete probabilistic distributions, thus specifying the probability of transiting to each successor state. To reason about expectations, we additionally annotate Markov decision processes with quantitative costs, which are incurred upon taking the selected action from a given state. Quantitative properties are expressed as formulas of the probabilistic computation tree logic (PCTL) or using linear temporal logic (LTL). We summarise the main model-checking algorithms for both PCTL and LTL, and illustrate their working through examples. The chapter ends with a brief overview of extensions to more expressive models and temporal logics, existing probabilistic model-checking tool support, and main application domains.

Citovat

BAIER, Christel, Luca DE ALFARO, Vojtěch FOREJT and Marta KWIATKOWSKA. Probabilistic Model Checking. In Handbook of Model Checking. Germany: Springer, 2018, 39 pp. ISBN 978-3-319-10575-8.

@inbook{1378306,
   author = {Baier, Christel and de Alfaro, Luca and Forejt, Vojtěch and Kwiatkowska, Marta},
   address = {Germany},
   booktitle = {Handbook of Model Checking},
   keywords = {model checking; ltl; pctl},
   language = {eng},
   location = {Germany},
   isbn = {978-3-319-10575-8},
   publisher = {Springer},
   title = {Probabilistic Model Checking},
   year = {2018}
}

TY  - CHAP
ID  - 1378306
AU  - Baier, Christel - de Alfaro, Luca - Forejt, Vojtěch - Kwiatkowska, Marta
PY  - 2018
TI  - Probabilistic Model Checking
PB  - Springer
CY  - Germany
SN  - 9783319105758
KW  - model checking
KW  - ltl
KW  - pctl
N2  - The model-checking approach was originally formulated for verifying qualitative properties of systems, for example safety and liveness, and subsequently extended to also handle quantitative features, such as real-time, continuous flows, as well as stochastic phenomena, where system evolution is governed by a given probability distribution. Probabilistic model-checking aims to establish the correctness of probabilistic system models against quantitative probabilistic specifications, such as those capable of expressing, e.g., the probability of an unsafe event occurring, expected time to termination, or expected power consumption in the start-up phase. In this chapter, we present the foundations of probabilistic model-checking, focusing on finite-state Markov decision processes as models and quantitative properties expressed in probabilistic temporal logic. Markov decision processes can be thought of as a probabilistic variant of labelled transition systems in the following sense: transitions are labelled with actions, which can be chosen nondeterministically, and successor states for the chosen action are specified by means of discrete probabilistic distributions, thus specifying the probability of transiting to each successor state. To reason about expectations, we additionally annotate Markov decision processes with quantitative costs, which are incurred upon taking the selected action from a given state. Quantitative properties are expressed as formulas of the probabilistic computation tree logic (PCTL) or using linear temporal logic (LTL). We summarise the main model-checking algorithms for both PCTL and LTL, and illustrate their working through examples. The chapter ends with a brief overview of extensions to more expressive models and temporal logics, existing probabilistic model-checking tool support, and main application domains.
ER  -

BAIER, Christel, Luca DE ALFARO, Vojtěch FOREJT and Marta KWIATKOWSKA. Probabilistic Model Checking. In \textit{Handbook of Model Checking}. Germany: Springer, 2018, 39 pp. ISBN~978-3-319-10575-8.

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