Declarative workflow languages are easy for humans to understand and use for specifications, but difficult for computers to check for consistency and use for enactment. Therefore, declarative languages need to be translated to something a computer can handle. One approach is to translate the declarative language to linear temporal logic (LTL), which can be translated to finite automata. While computers are very good at handling finite automata, the translation itself is often a road block as it may take time exponential in the size of the input. Here, we present algorithms for doing this translation much more efficiently (around a factor of 10,000 times faster and handling 10 times larger systems on a standard computer), making declarative ...
We formalize linear-time temporal logic (LTL) and the algorithm by Gerth et al. to convert LTL formu...
The realizability problem is to decide whether there exists a pro-gram that implements a given speci...
Temporal logic is often used to describe temporal properties in AI applications. The most popular la...
Declarative workflow languages are easy for humans to understand and use for specifications, but dif...
In our earlier work we proposed using the declarative language DecSerFlow for modeling, analysis and...
In our earlier work we have proposed using the declarative language DecSerFlow for modeling, analysi...
In this paper, a new algorithm for translating linear time temporal logic (LTL) into deterministic ω...
International audienceThis chapter illustrates two aspects of automata theory related to linear-time...
International audienceAbstract While the complexity of translating future linear temporal logic (LTL...
Abstract. In this paper, a new algorithm for translating linear time temporal logic (LTL) into deter...
ABSTRACT: Automata theory provides powerful tools for designing and implementing decision procedures...
Temporal logics like LTL are frequently used for the specification and verification of reactive syst...
One way of modeling workflows in business process management (BPM) is by using a declarative approac...
Abstract. The automata-theoretic approach to linear temporal logic uses the theory of automata as a ...
. The automata-theoretic approach to linear temporal logic uses the theory of automata as a unifying...
We formalize linear-time temporal logic (LTL) and the algorithm by Gerth et al. to convert LTL formu...
The realizability problem is to decide whether there exists a pro-gram that implements a given speci...
Temporal logic is often used to describe temporal properties in AI applications. The most popular la...
Declarative workflow languages are easy for humans to understand and use for specifications, but dif...
In our earlier work we proposed using the declarative language DecSerFlow for modeling, analysis and...
In our earlier work we have proposed using the declarative language DecSerFlow for modeling, analysi...
In this paper, a new algorithm for translating linear time temporal logic (LTL) into deterministic ω...
International audienceThis chapter illustrates two aspects of automata theory related to linear-time...
International audienceAbstract While the complexity of translating future linear temporal logic (LTL...
Abstract. In this paper, a new algorithm for translating linear time temporal logic (LTL) into deter...
ABSTRACT: Automata theory provides powerful tools for designing and implementing decision procedures...
Temporal logics like LTL are frequently used for the specification and verification of reactive syst...
One way of modeling workflows in business process management (BPM) is by using a declarative approac...
Abstract. The automata-theoretic approach to linear temporal logic uses the theory of automata as a ...
. The automata-theoretic approach to linear temporal logic uses the theory of automata as a unifying...
We formalize linear-time temporal logic (LTL) and the algorithm by Gerth et al. to convert LTL formu...
The realizability problem is to decide whether there exists a pro-gram that implements a given speci...
Temporal logic is often used to describe temporal properties in AI applications. The most popular la...