International audienceLogics based on the µ-calculus are used to model inductive and coinductive reasoning and to verify reactive systems. A well-structured proof-theory is needed in order to apply such logics to the study of programming languages with (co)inductive data types and automated (co)inductive theorem proving. While traditional proof system suffers some defects, non-wellfounded (or infinitary) and circular proofs have been recognized as a valuable alternative, and significant progress have been made in this direction in recent years. Such proofs are non-wellfounded sequent derivations together with a global validity condition expressed in terms of progressing threads. The present paper investigates a discrepancy found in such pro...
Infinitary and regular proofs are commonly used in fixed point logics. Being natural intermediatedev...
Proof theory provides a foundation for studying and reasoning about programming languages, most dire...
International audienceIn this paper we develop a cyclic proof system for the problem of inclusion be...
Logics based on the µ-calculus are used to model induc-tive and coinductive reasoning and to verify ...
International audienceNon-wellfounded and circular proofs have been recognised over the past decade ...
Non-wellfounded and circular proofs have been recognised over the past decade as a valuable tool to ...
International audienceEmerging trends in proof styles and new applications of interactive proof assi...
In the context of logics with least and greatest fixed points, circular, i.¿e. non wellfounded but r...
International audienceWe investigate here a new version of the Calculus of Inductive Constructions (...
International audienceIn the context of logics with least and greatest fixed points, circular (ie. n...
International audienceGiven that (co)inductive types are naturally modelled as fixed points, it is u...
The workshop on proof theory took place in Vichy at the Pôle Universitaire de Vichy on 25 June 2018....
International audienceFocused proof systems provide means for reducing and structuring the non-deter...
We show how codatatypes can be employed to produce compact, high-level proofs of key results in logi...
Infinitary and regular proofs are commonly used in fixed point logics. Being natural intermediatedev...
Proof theory provides a foundation for studying and reasoning about programming languages, most dire...
International audienceIn this paper we develop a cyclic proof system for the problem of inclusion be...
Logics based on the µ-calculus are used to model induc-tive and coinductive reasoning and to verify ...
International audienceNon-wellfounded and circular proofs have been recognised over the past decade ...
Non-wellfounded and circular proofs have been recognised over the past decade as a valuable tool to ...
International audienceEmerging trends in proof styles and new applications of interactive proof assi...
In the context of logics with least and greatest fixed points, circular, i.¿e. non wellfounded but r...
International audienceWe investigate here a new version of the Calculus of Inductive Constructions (...
International audienceIn the context of logics with least and greatest fixed points, circular (ie. n...
International audienceGiven that (co)inductive types are naturally modelled as fixed points, it is u...
The workshop on proof theory took place in Vichy at the Pôle Universitaire de Vichy on 25 June 2018....
International audienceFocused proof systems provide means for reducing and structuring the non-deter...
We show how codatatypes can be employed to produce compact, high-level proofs of key results in logi...
Infinitary and regular proofs are commonly used in fixed point logics. Being natural intermediatedev...
Proof theory provides a foundation for studying and reasoning about programming languages, most dire...
International audienceIn this paper we develop a cyclic proof system for the problem of inclusion be...