AbstractWe propose a process calculus to study the observational theory of Mobile Ad Hoc Networks. The operational semantics of our calculus is given both in terms of a Reduction Semantics and in terms of a Labelled Transition Semantics. We prove that the two semantics coincide. The labelled transition system is then used to derive the notions of simulation and bisimulation for ad hoc networks. As a main result, we prove that the (weak) labelled bisimilarity completely characterises (weak) reduction barbed congruence, a standard, branching-time, contextually-defined program equivalence. We then use our (bi)simulation proof methods to formally prove a number of non-trivial properties of ad hoc networks
Connectivity and communication interference are two key aspects in mobile ad-hoc networks (MANETs). ...
none2noIn wireless systems, the communication mechanism combines features of broadcast, synchrony, a...
Abstract Connectivity and communication interference are two key aspects in mobile ad-hoc networks (...
AbstractWe propose a process calculus to study the behavioural theory of Mobile Ad Hoc Networks. The...
We propose a process calculus to study the behavioural theory of Mobile Ad Hoc Networks. The operati...
We propose a process calculus to study the behavioural theory of Mo-bile Ad Hoc Networks. The operat...
AbstractWe present the ω-calculus, a process calculus for formally modeling and reasoning about Mobi...
AbstractWe present a process calculus for mobile ad hoc networks which is a natural continuation of ...
In this paper we propose a process calculus framework for dynamic networks in which the network topo...
AbstractWe propose a timed broadcasting process calculus for wireless systems where time-consuming c...
We present a process algebra for modeling and reasoning about Mobile Ad hoc Networks (MANETs) and th...
We present a timed process calculus for modelling wireless networks in which individualstations broa...
We propose a process calculus for mobile ad hoc networks which relies on an abstract behaviour-based...
We develop a timed calculus for Mobile Ad Hoc Networks embodying the peculiarities of local broadcas...
Abstract. We propose a process calculus for mobile ad hoc networks which relies on an abstract behav...
Connectivity and communication interference are two key aspects in mobile ad-hoc networks (MANETs). ...
none2noIn wireless systems, the communication mechanism combines features of broadcast, synchrony, a...
Abstract Connectivity and communication interference are two key aspects in mobile ad-hoc networks (...
AbstractWe propose a process calculus to study the behavioural theory of Mobile Ad Hoc Networks. The...
We propose a process calculus to study the behavioural theory of Mobile Ad Hoc Networks. The operati...
We propose a process calculus to study the behavioural theory of Mo-bile Ad Hoc Networks. The operat...
AbstractWe present the ω-calculus, a process calculus for formally modeling and reasoning about Mobi...
AbstractWe present a process calculus for mobile ad hoc networks which is a natural continuation of ...
In this paper we propose a process calculus framework for dynamic networks in which the network topo...
AbstractWe propose a timed broadcasting process calculus for wireless systems where time-consuming c...
We present a process algebra for modeling and reasoning about Mobile Ad hoc Networks (MANETs) and th...
We present a timed process calculus for modelling wireless networks in which individualstations broa...
We propose a process calculus for mobile ad hoc networks which relies on an abstract behaviour-based...
We develop a timed calculus for Mobile Ad Hoc Networks embodying the peculiarities of local broadcas...
Abstract. We propose a process calculus for mobile ad hoc networks which relies on an abstract behav...
Connectivity and communication interference are two key aspects in mobile ad-hoc networks (MANETs). ...
none2noIn wireless systems, the communication mechanism combines features of broadcast, synchrony, a...
Abstract Connectivity and communication interference are two key aspects in mobile ad-hoc networks (...