Gossip protocols have been proposed as a robust and efficient method for disseminating information throughout large-scale networks. In this paper, we propose a compositional analysis technique to study formal probabilistic models of gossip protocols in the context of wireless sensor networks. We introduce a simple probabilistic timed process calculus for modelling wireless sensor networks. A simulation theory is developed to compare probabilistic protocols that have similar behaviour up to a certain probability. This theory is used to prove a number of algebraic laws which revealed to be very effective to evaluate the performances of gossip networks with and without communication collisions
In this thesis, we present novel software technology for the analysis of wireless networks, an emerg...
Abstract—Probabilistic techniques have been used to address many challenges in sensor networks. Howe...
Abstract — Sensor networks are not just data networks with sensors being the sources of data. Rather...
Gossip protocols have been proposed as a robust and efficient method for disseminating information t...
Gossip protocols have been proposed as a robust and efficient method for disseminating information t...
Abstract Gossip protocols have been proposed as a robust and efficient method for disseminating info...
Gossip protocols have been proposed as a robust and efficient method for disseminating information t...
Gossip protocols have been proposed as a robust and efficient method fordisseminating information th...
Abstract. We propose a process calculus to model high level wireless systems, where the topology of ...
We propose a process calculus to model high level wireless systems, where thetopology of a network i...
We present a framework for modelling ad-hoc Wireless Sensor Networks (WSNs) and studying both their ...
We present a framework for modelling ad-hoc Wireless Sensor Networks (WSNs) and studying both their ...
In this thesis, we present novel software technology for the analysis of wireless net- works, an eme...
AbstractWe introduce a state-based model that can be used in specifying and verifying the desired pr...
We introduce a state-based model that can be used in specifying and verifying the desired properties...
In this thesis, we present novel software technology for the analysis of wireless networks, an emerg...
Abstract—Probabilistic techniques have been used to address many challenges in sensor networks. Howe...
Abstract — Sensor networks are not just data networks with sensors being the sources of data. Rather...
Gossip protocols have been proposed as a robust and efficient method for disseminating information t...
Gossip protocols have been proposed as a robust and efficient method for disseminating information t...
Abstract Gossip protocols have been proposed as a robust and efficient method for disseminating info...
Gossip protocols have been proposed as a robust and efficient method for disseminating information t...
Gossip protocols have been proposed as a robust and efficient method fordisseminating information th...
Abstract. We propose a process calculus to model high level wireless systems, where the topology of ...
We propose a process calculus to model high level wireless systems, where thetopology of a network i...
We present a framework for modelling ad-hoc Wireless Sensor Networks (WSNs) and studying both their ...
We present a framework for modelling ad-hoc Wireless Sensor Networks (WSNs) and studying both their ...
In this thesis, we present novel software technology for the analysis of wireless net- works, an eme...
AbstractWe introduce a state-based model that can be used in specifying and verifying the desired pr...
We introduce a state-based model that can be used in specifying and verifying the desired properties...
In this thesis, we present novel software technology for the analysis of wireless networks, an emerg...
Abstract—Probabilistic techniques have been used to address many challenges in sensor networks. Howe...
Abstract — Sensor networks are not just data networks with sensors being the sources of data. Rather...