Add to ORKGAbstract. We define a typed bisimulation equivalence for the language Dpi, a distributed version of the π-calculus in which processes may migrate between dynamically created locations. It takes into account resource access policies, which can be implemented in Dpi using a novel form of dynamic capability types. The equivalence, based on typed actions between configurations, is justified by showing that it is fullyabstract with respect to a natural distributed version of a contextual equivalence. In the second part of the paper we study the effect of controlling the migration of processes. This affects the ability to perform observations at specific locations, as the observer may be denied access. We show how the typed actions can be modifie...
µKlaim is a process language that permits programming distributed systems made up of several mobile ...
We introduce a process calculus that contains constructs to express and program resource negotiation...
We develop a behavioural theory of distributed systems in the presence of failures. The framework we...
We define a typed bisimulation equivalence for the language Dpi, a distributed version of the pi-cal...
We define a typed bisimulation equivalence for the language Dpi, a distributed version of the pi-cal...
Abstract. Dπ is a simple distributed extension of the π-calculus in which agents are explicitly loca...
Dπ is a simple distributed extension of the π-calculus in which agents are explicitly located, and m...
Distributed computation is increasingly used even though it is still only loosely controlled. This t...
Distributed systems are fast becoming the norm in computer science. Formal mathematical models and t...
AbstractWe describe a typing system for a distributed π-calculus which guarantees that distributed a...
AbstractWe describe a typing system for a distributed π-calculus which guarantees that distributed a...
We describe a typing system for a distributed π-calculus which guarantees that distributed agents ca...
We describe a typing system for a distributed ?-calculus which guarantees that distributed agents ca...
This thesis proposes a typing discipline to control the migration of code in a distributed, mobile e...
AbstractDπ is a simple distributed extension of the π-calculus in which agents are explicitly locate...
µKlaim is a process language that permits programming distributed systems made up of several mobile ...
We introduce a process calculus that contains constructs to express and program resource negotiation...
We develop a behavioural theory of distributed systems in the presence of failures. The framework we...
We define a typed bisimulation equivalence for the language Dpi, a distributed version of the pi-cal...
We define a typed bisimulation equivalence for the language Dpi, a distributed version of the pi-cal...
Abstract. Dπ is a simple distributed extension of the π-calculus in which agents are explicitly loca...
Dπ is a simple distributed extension of the π-calculus in which agents are explicitly located, and m...
Distributed computation is increasingly used even though it is still only loosely controlled. This t...
Distributed systems are fast becoming the norm in computer science. Formal mathematical models and t...
AbstractWe describe a typing system for a distributed π-calculus which guarantees that distributed a...
AbstractWe describe a typing system for a distributed π-calculus which guarantees that distributed a...
We describe a typing system for a distributed π-calculus which guarantees that distributed agents ca...
We describe a typing system for a distributed ?-calculus which guarantees that distributed agents ca...
This thesis proposes a typing discipline to control the migration of code in a distributed, mobile e...
AbstractDπ is a simple distributed extension of the π-calculus in which agents are explicitly locate...
µKlaim is a process language that permits programming distributed systems made up of several mobile ...
We introduce a process calculus that contains constructs to express and program resource negotiation...
We develop a behavioural theory of distributed systems in the presence of failures. The framework we...