Psi-calculi is a parametric framework for process calculi similar to popular pi-calculus extensions such as the explicit fusion calculus, the applied pi-calculus and the spi calculus. Remarkably, machine-checked proofs of standard algebraic and congruence properties of bisimilarity apply to every instance of the framework. The contribution of this licentiate thesis is to significantly extend the applicability and expressiveness of psi-calculi by incorporating several advanced language features into the framework: broadcasts, higher-order communication, generalised pattern matching, sorts and priorities. The extensions present several interesting technical challenges, such as negative premises. The machine-checked proofs for standard results...
Psi-calculi are mobile process calculi, parametrised with arbitrary nominal datatypes representing d...
A large variety of process calculi extend the pi-calculus with more general notions of messages. Ben...
Psi-calculi is a parametric framework for extensions of the pi-calculus; in earlier work we have exp...
Psi-calculi is a parametric framework for process calculi similar to popular pi-calculus extensions ...
Part 1: Full PapersInternational audiencePsi-calculi is a parametric framework for process calculi s...
Psi-calculi is a parametric framework for extensions of the pi-calculus, with arbitrary data structu...
Psi-calculi is a parametric framework for extensions of the pi-calculus, with arbitrary data structu...
A psi-calculus is an extension of the pi-calculus with nominal data types for data structures, logic...
A psi-calculus is an extension of the pi-calculus with nominal data types for data structures and fo...
AbstractWe present a symbolic transition system and strong and weak bisimulation equivalences for ps...
Psi-calculi is a parametric framework for extensions of the pi-calculus with arbitrary data and logi...
Psi-calculi is a parametric framework for extensions of the pi-calculus with arbitrary data and logi...
AbstractWe present a symbolic transition system and strong and weak bisimulation equivalences for ps...
We present a symbolic transition system and bisimulation equivalence for psi-calculi, and show that ...
We present a symbolic transition system and bisimulation equivalence for psi-calculi, and show that ...
Psi-calculi are mobile process calculi, parametrised with arbitrary nominal datatypes representing d...
A large variety of process calculi extend the pi-calculus with more general notions of messages. Ben...
Psi-calculi is a parametric framework for extensions of the pi-calculus; in earlier work we have exp...
Psi-calculi is a parametric framework for process calculi similar to popular pi-calculus extensions ...
Part 1: Full PapersInternational audiencePsi-calculi is a parametric framework for process calculi s...
Psi-calculi is a parametric framework for extensions of the pi-calculus, with arbitrary data structu...
Psi-calculi is a parametric framework for extensions of the pi-calculus, with arbitrary data structu...
A psi-calculus is an extension of the pi-calculus with nominal data types for data structures, logic...
A psi-calculus is an extension of the pi-calculus with nominal data types for data structures and fo...
AbstractWe present a symbolic transition system and strong and weak bisimulation equivalences for ps...
Psi-calculi is a parametric framework for extensions of the pi-calculus with arbitrary data and logi...
Psi-calculi is a parametric framework for extensions of the pi-calculus with arbitrary data and logi...
AbstractWe present a symbolic transition system and strong and weak bisimulation equivalences for ps...
We present a symbolic transition system and bisimulation equivalence for psi-calculi, and show that ...
We present a symbolic transition system and bisimulation equivalence for psi-calculi, and show that ...
Psi-calculi are mobile process calculi, parametrised with arbitrary nominal datatypes representing d...
A large variety of process calculi extend the pi-calculus with more general notions of messages. Ben...
Psi-calculi is a parametric framework for extensions of the pi-calculus; in earlier work we have exp...
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