In this paper we introduce a product operation on labeled Markov chains. Whereas this kind of product is most usually achieved under an interleaving semantics, for instance in the framework of probabilistic automata, our construction stays within the true-concurrent semantics. Hence the product of two labeled Markov chains we define is a so-called probabilistic Petri net, i.e. a safe Petri net where Mazurkiewicz traces are randomized, not interleavings. We show that this construction is not trivial as far as the number of synchronization transitions is greater or equal than 2. Our main result is that the product of Markov chains remains Markovian, in the sense of probabilistic true-concurrent systems
International audienceWe study the concept of choice for true concurrency models such as prime event...
International audienceWe introduce a new model for the design of concurrent sto-chastic real-time sy...
The formal verification of large probabilistic models is challenging. Exploiting the concurrency tha...
In this paper we introduce a product operation on <br /> labeled Markov chains. Whereas this kind of...
In this paper we introduce a product operation on labeled Markov chains. Whereas this kind of produc...
International audienceWe study probabilistic safe Petri nets, a probabilistic exten- sion of safe Pe...
AbstractWe introduce the model of Markov nets, a probabilistic extension of safe Petri nets under th...
We study the synchronization of two discrete Markov chains that share common states. Markov chains d...
International audienceWe introduce the model of Markov nets, a probabilistic extension of safe Petri...
We introduce the model of Markov nets, a probabilistic extension of safe Petri nets under the true-c...
International audienceWe discuss conceptional and foundational aspects of Markov automata [22]. We p...
34 pagesInternational audienceWe propose Markov two-components processes (M2CP) as a probabilistic m...
International audienceFor distributed systems, i.e., large complex networked systems, there is a dra...
Président du jury : J.-P. Banâtre ; Rapporteurs : G. Winskel, J. Mairesse ;Examinateurs : A. Benveni...
The first part of the paper is an introduction to the theory of probabilistic concurrent systems und...
International audienceWe study the concept of choice for true concurrency models such as prime event...
International audienceWe introduce a new model for the design of concurrent sto-chastic real-time sy...
The formal verification of large probabilistic models is challenging. Exploiting the concurrency tha...
In this paper we introduce a product operation on <br /> labeled Markov chains. Whereas this kind of...
In this paper we introduce a product operation on labeled Markov chains. Whereas this kind of produc...
International audienceWe study probabilistic safe Petri nets, a probabilistic exten- sion of safe Pe...
AbstractWe introduce the model of Markov nets, a probabilistic extension of safe Petri nets under th...
We study the synchronization of two discrete Markov chains that share common states. Markov chains d...
International audienceWe introduce the model of Markov nets, a probabilistic extension of safe Petri...
We introduce the model of Markov nets, a probabilistic extension of safe Petri nets under the true-c...
International audienceWe discuss conceptional and foundational aspects of Markov automata [22]. We p...
34 pagesInternational audienceWe propose Markov two-components processes (M2CP) as a probabilistic m...
International audienceFor distributed systems, i.e., large complex networked systems, there is a dra...
Président du jury : J.-P. Banâtre ; Rapporteurs : G. Winskel, J. Mairesse ;Examinateurs : A. Benveni...
The first part of the paper is an introduction to the theory of probabilistic concurrent systems und...
International audienceWe study the concept of choice for true concurrency models such as prime event...
International audienceWe introduce a new model for the design of concurrent sto-chastic real-time sy...
The formal verification of large probabilistic models is challenging. Exploiting the concurrency tha...