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Probabilistic Model Checking andS trategy SynthesisDave Parker
Citation
Dave Parker. "Probabilistic Model Checking andS trategy Synthesis". Talk or presentation, 28, October, 2014.
Abstract
Probabilistic model checking is an automated technique to verify whether a probabilistic system, e.g., a robot operating in an unknown environment, satisfies a temporal logic property, e.g., "the minimum probability of completing the task within 15 minutes is above 0.98". Dually, we can also synthesise, from a model and a property specification, a strategy for controlling the system in order to satisfy or optimise the property.
This talk will give an overview of automated verification and strategy synthesis for probabilistic systems, and present some recent advances in this area, including: multi-objective model checking (to investigate trade-offs between several conflicting properties), extensions to stochastic game models (to model competitive or collaborative behaviour) and permissive strategy synthesis (to generate flexible and robust controllers). I will describe the tool support for these techniques, in the form of the probabilistic model checker PRISM and its extensions, and present results from the application of these techniques to examples such as robotic motion planning, dynamic power management controllers and task scheduling. Electronic downloads
- HTML
Dave Parker. <a
href="http://chess.eecs.berkeley.edu/pubs/1079.html"
><i>Probabilistic Model Checking andS trategy
Synthesis</i></a>, Talk or presentation, 28,
October, 2014.
- Plain text
Dave Parker. "Probabilistic Model Checking andS trategy
Synthesis". Talk or presentation, 28, October, 2014.
- BibTeX
@presentation{Parker14_ProbabilisticModelCheckingAndSTrategySynthesis,
author = {Dave Parker},
title = {Probabilistic Model Checking andS trategy Synthesis},
day = {28},
month = {October},
year = {2014},
abstract = {Probabilistic model checking is an automated
technique to verify whether a probabilistic
system, e.g., a robot operating in an unknown
environment, satisfies a temporal logic property,
e.g., "the minimum probability of completing the
task within 15 minutes is above 0.98". Dually, we
can also synthesise, from a model and a property
specification, a strategy for controlling the
system in order to satisfy or optimise the
property. This talk will give an overview of
automated verification and strategy synthesis for
probabilistic systems, and present some recent
advances in this area, including: multi-objective
model checking (to investigate trade-offs between
several conflicting properties), extensions to
stochastic game models (to model competitive or
collaborative behaviour) and permissive strategy
synthesis (to generate flexible and robust
controllers). I will describe the tool support for
these techniques, in the form of the probabilistic
model checker PRISM and its extensions, and
present results from the application of these
techniques to examples such as robotic motion
planning, dynamic power management controllers and
task scheduling.},
URL = {http://chess.eecs.berkeley.edu/pubs/1079.html}
}
Posted by Armin Wasicek on 29 Oct 2014.
Groups: chessworkshop
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