AbstractA term calculus for the proofs in multiplicative-additive linear logic is introduced and motivated as a programming language for channel based concurrency. The term calculus is proved complete for a semantics in linearly distributive categories with additives. It is also shown that proof equivalence is decidable by showing that the cut elimination rewrites supply a confluent rewriting system modulo equations
International audienceAlong the lines of Abramsky's "Proofs-as-Processes" program, we present an int...
We prove full completeness of multiplicative linear logic (MLL) without MIX under the Chu interpret...
Permutative logic (PL) is a noncommutative variant of multiplicative linear logic (MLL) arising fro...
AbstractA term calculus for the proofs in multiplicative-additive linear logic is introduced and mot...
AbstractThis paper has the purpose of reviewing some of the established relationships between logic ...
AbstractWe build a realizability model for linear logic using a name-passing process calculus. The c...
AbstractThis paper has the purpose of reviewing some of the established relationships between logic ...
We reconsider work by Bellin and Scott in the 1990s on R. Milner and S. Abramsky's encoding of linea...
This paper concerns a logical approach to natural language parsing based on proof nets (PNs), i.e. d...
Multiplicative linear logic MLL was introduced in Gi as a onesided sequent calculus linear negati...
Multiplicative linear logic MLL was introduced in Gi as a onesided sequent calculus linear negation ...
AbstractLinear Logic, we concisely write LL, has been introduced recently by Jean Yves Girard in The...
SubmittedProof nets are a syntax for linear logic proofs which gives a coarser notion of proof equiv...
This paper has the purpose of reviewing some of the established relationships between logic and conc...
Proof-nets are special graphs (proof-structures) representing desequentialised proofs of the linear ...
International audienceAlong the lines of Abramsky's "Proofs-as-Processes" program, we present an int...
We prove full completeness of multiplicative linear logic (MLL) without MIX under the Chu interpret...
Permutative logic (PL) is a noncommutative variant of multiplicative linear logic (MLL) arising fro...
AbstractA term calculus for the proofs in multiplicative-additive linear logic is introduced and mot...
AbstractThis paper has the purpose of reviewing some of the established relationships between logic ...
AbstractWe build a realizability model for linear logic using a name-passing process calculus. The c...
AbstractThis paper has the purpose of reviewing some of the established relationships between logic ...
We reconsider work by Bellin and Scott in the 1990s on R. Milner and S. Abramsky's encoding of linea...
This paper concerns a logical approach to natural language parsing based on proof nets (PNs), i.e. d...
Multiplicative linear logic MLL was introduced in Gi as a onesided sequent calculus linear negati...
Multiplicative linear logic MLL was introduced in Gi as a onesided sequent calculus linear negation ...
AbstractLinear Logic, we concisely write LL, has been introduced recently by Jean Yves Girard in The...
SubmittedProof nets are a syntax for linear logic proofs which gives a coarser notion of proof equiv...
This paper has the purpose of reviewing some of the established relationships between logic and conc...
Proof-nets are special graphs (proof-structures) representing desequentialised proofs of the linear ...
International audienceAlong the lines of Abramsky's "Proofs-as-Processes" program, we present an int...
We prove full completeness of multiplicative linear logic (MLL) without MIX under the Chu interpret...
Permutative logic (PL) is a noncommutative variant of multiplicative linear logic (MLL) arising fro...