Theoretical Computer Science
Elf: a language for logic definition and verified metaprogramming
Proceedings of the Fourth Annual Symposium on Logic in computer science
A framework for defining logics
Journal of the ACM (JACM)
Forum: a multiple-conclusion specification logic
ALP Proceedings of the fourth international conference on Algebraic and logic programming
Cut-elimination for a logic with definitions and induction
Theoretical Computer Science - Special issue on proof-search in type-theoretic languages
Information and Computation
Using Linear Logic to Reason about Sequent Systems
TABLEAUX '02 Proceedings of the International Conference on Automated Reasoning with Analytic Tableaux and Related Methods
Specifying Theorem Provers in a Higher-Order Logic Programming Language
Proceedings of the 9th International Conference on Automated Deduction
LICS '95 Proceedings of the 10th Annual IEEE Symposium on Logic in Computer Science
A logical framework for reasoning about logical specifications
A logical framework for reasoning about logical specifications
A system of interaction and structure
ACM Transactions on Computational Logic (TOCL)
Towards an algorithmic construction of cut-elimination procedures†
Mathematical Structures in Computer Science
IJCAR '08 Proceedings of the 4th international joint conference on Automated Reasoning
Canonical Calculi: Invertibility, Axiom Expansion and (Non)-determinism
CSR '09 Proceedings of the Fourth International Computer Science Symposium in Russia on Computer Science - Theory and Applications
Least and greatest fixed points in linear logic
LPAR'07 Proceedings of the 14th international conference on Logic for programming, artificial intelligence and reasoning
Journal of Automated Reasoning
Specifying Proof Systems in Linear Logic with Subexponentials
Electronic Notes in Theoretical Computer Science (ENTCS)
Stratification in logics of definitions
IJCAR'12 Proceedings of the 6th international joint conference on Automated Reasoning
A linear concurrent constraint approach for the automatic verification of access permissions
Proceedings of the 14th symposium on Principles and practice of declarative programming
A formal framework for specifying sequent calculus proof systems
Theoretical Computer Science
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Recently, linear Logic has been used to specify sequent calculus proof systems in such a way that the proof search in linear logic can yield proof search in the specified logic. Furthermore, the meta-theory of linear logic can be used to draw conclusions about the specified sequent calculus. For example, derivability of one proof system from another can be decided by a simple procedure that is implemented via bounded logic programming-style search. Also, simple and decidable conditions on the linear logic presentation of inference rules, called homogeneous and coherence, can be used to infer that the initial rules can be restricted to atoms and that cuts can be eliminated. In the present paper we introduce Llinda, a logical framework based on linear logic augmented with inference rules for definition (fixed points) and induction. In this way, the above properties can be proved entirely inside the framework. To further illustrate the power of Llinda, we extend the definition of coherence and provide a new, semi-automated proof of cut-elimination for Girard’s Logic of Unicity (LU).