In concurrent systems, the choice of executing the next transition depends both on the timing between the agents that make independent or collaborative interactions available, and on the conflicts (nondeterministic choices) with other transitions. This creates a challenging modeling and implementation problem. When the system needs to make also probabilistic choices, the situation becomes even more complicated. We use the model of Petri nets to demonstrate the modeling and implementation problem. The proposed solution involves adding sequential observers called agents to the Petri net structure. Distributed probabilistic choices are facilitated in the presence of concurrency and nondeterminism, by selecting agents that make the choices, whi...
International audienceWe study the concept of choice for true concurrency models such as prime event...
The formal verification of large probabilistic models is challenging. Exploiting the concurrency tha...
For distributed systems, i.e. large networked complex systems, there is a drastic difference between...
International audienceWe introduce a new model for the design of concurrent sto-chastic real-time sy...
This article introduces a probabilistic unfolding semantics for untimed Petri nets. No structural or...
The Markov Decision Process (MDP) formalism is a well-known mathematical formalism to study systems ...
International audienceDeveloping concurrent systems typically involves a lengthy debugging period, d...
Treating random phenomena in concurrency theory has a long tradition. Petri nets [18, 10] and proces...
Concurrent and distributed systems have traditionally been modelled using nondeterministic transitio...
Wegiveabriefoverviewofoperationalmodelsforconcurrent systems that exhibit probabilistic behavior, fo...
Contains fulltext : 27561.pdf (publisher's version ) (Open Access)This thesis is w...
In this work, we propose two high-level formalisms, Markov Decision Petri Nets (MDPNs) and Markov De...
International audienceFor distributed systems, i.e., large complex networked systems, there is a dra...
Complex software systems typically involve features like time, concurrency and probability, where pr...
International audienceWe study the concept of choice for true concurrency models such as prime event...
The formal verification of large probabilistic models is challenging. Exploiting the concurrency tha...
For distributed systems, i.e. large networked complex systems, there is a drastic difference between...
International audienceWe introduce a new model for the design of concurrent sto-chastic real-time sy...
This article introduces a probabilistic unfolding semantics for untimed Petri nets. No structural or...
The Markov Decision Process (MDP) formalism is a well-known mathematical formalism to study systems ...
International audienceDeveloping concurrent systems typically involves a lengthy debugging period, d...
Treating random phenomena in concurrency theory has a long tradition. Petri nets [18, 10] and proces...
Concurrent and distributed systems have traditionally been modelled using nondeterministic transitio...
Wegiveabriefoverviewofoperationalmodelsforconcurrent systems that exhibit probabilistic behavior, fo...
Contains fulltext : 27561.pdf (publisher's version ) (Open Access)This thesis is w...
In this work, we propose two high-level formalisms, Markov Decision Petri Nets (MDPNs) and Markov De...
International audienceFor distributed systems, i.e., large complex networked systems, there is a dra...
Complex software systems typically involve features like time, concurrency and probability, where pr...
International audienceWe study the concept of choice for true concurrency models such as prime event...
The formal verification of large probabilistic models is challenging. Exploiting the concurrency tha...
For distributed systems, i.e. large networked complex systems, there is a drastic difference between...