Add to ORKGInternational audienceWe present a formalization of proof-nets (and more generally, proofstructures) for the multiplicative-exponential fragment of linear logic, with a novel treatment of boxes: instead of integrating boxes into to the graphical structure (e.g., by adding explicit auxiliary doors, plus a mapping from boxed nodes to the main door, and ad hoc conditions on the nesting of boxes), we fix a graph morphism from the underlying graph of the proof-structure to the tree of boxes given by the nesting order. This approach allows to apply tools and notions from the theory of algebraic graph transformations, and obtain very synthetic presentations of sophisticated operations: for instance, each element of the Taylor expansion of a proof-...
In the first part of this paper we present a theory of proof nets for full multiplicative linear log...
Abstract. Given an intuitionistic proof net of linear logic, we abstract an order between its atomic...
In previous works, by importing ideas from game semantics (notably Faggian-Maurel-Curien’s ludics ne...
International audienceWe present a formalization of proof-nets (and more generally, proofstructures)...
We present a formalization of proof-nets (and more generally, proof- structures) for the multiplica...
We present a formalization of proof-nets (and more generally, proof- structures) for the multiplica...
We introduce a new graphical representation for multiplicative and exponential linear logic proof-st...
We introduce a new graphical representation for multiplicative and exponential linear logic proof-st...
We introduce a new graphical representation for multiplicative and exponential linear logic proof-st...
Deduction graphs [3] provide a formalism for natural deduction, where the deductions have the struct...
Deduction graphs [3] provide a formalism for natural deduction, where the deductions have the struct...
Deduction graphs [3] provide a formalism for natural deduction, where the deductions have the struct...
Deduction graphs [3] provide a formalism for natural deduction, where the deductions have the struct...
Deduction graphs [3] provide a formalism for natural deduction, where the deductions have the struct...
13th Annual Conference of the EACSL. Colloque avec actes et comité de lecture. internationale.Intern...
In the first part of this paper we present a theory of proof nets for full multiplicative linear log...
Abstract. Given an intuitionistic proof net of linear logic, we abstract an order between its atomic...
In previous works, by importing ideas from game semantics (notably Faggian-Maurel-Curien’s ludics ne...
International audienceWe present a formalization of proof-nets (and more generally, proofstructures)...
We present a formalization of proof-nets (and more generally, proof- structures) for the multiplica...
We present a formalization of proof-nets (and more generally, proof- structures) for the multiplica...
We introduce a new graphical representation for multiplicative and exponential linear logic proof-st...
We introduce a new graphical representation for multiplicative and exponential linear logic proof-st...
We introduce a new graphical representation for multiplicative and exponential linear logic proof-st...
Deduction graphs [3] provide a formalism for natural deduction, where the deductions have the struct...
Deduction graphs [3] provide a formalism for natural deduction, where the deductions have the struct...
Deduction graphs [3] provide a formalism for natural deduction, where the deductions have the struct...
Deduction graphs [3] provide a formalism for natural deduction, where the deductions have the struct...
Deduction graphs [3] provide a formalism for natural deduction, where the deductions have the struct...
13th Annual Conference of the EACSL. Colloque avec actes et comité de lecture. internationale.Intern...
In the first part of this paper we present a theory of proof nets for full multiplicative linear log...
Abstract. Given an intuitionistic proof net of linear logic, we abstract an order between its atomic...
In previous works, by importing ideas from game semantics (notably Faggian-Maurel-Curien’s ludics ne...