Add to ORKGInternational audienceHigher-order rewrite systems (HRSs) and simply-typed term rewriting systems (STRSs) are computational models of functional programs. We recently proposed an extremely powerful method, the static dependency pair method, which is based on the notion of strong computability, in order to prove termination in STRSs. In this paper, we extend the method to HRSs. Since HRSs include λ-abstraction but STRSs do not, we restructure the static dependency pair method to allow λ-abstraction, and show that the static dependency pair method also works well on HRSs without new restrictions
Abstract. A static dependency pair method, proposed by us, can effectively prove termination of simp...
Dependency pairs are a key concept at the core of modern automated termination provers for first-ord...
Abstract. The dependency pair technique is a powerful modular method for automated termination proof...
International audienceHigher-order rewrite systems (HRSs) and simply-typed term rewriting systems (S...
Abstract. Higher-order rewrite systems (HRSs) and simply-typed term rewriting systems (STRSs) are co...
IEICE Technical Report SS2010-24, Vol. 110, No. 169.The static dependency pair method is a method fo...
International audienceThe static dependency pair method is a method for proving the termination of h...
IEICE Technical Report SS2010-24, Vol. 110, No. 169.The static dependency pair method is a method fo...
Abstract The higher-order rewrite systems (HRS for short) are a computation model of functional prog...
Abstract The higher-order rewrite systems (HRS for short) are a computation model of functional prog...
We revisit the static dependency pair method for proving termination of higher-order term rewriting ...
International audienceArts and Giesl proved that the termination of a first-order rewrite system can...
We extend the termination method using dynamic dependency pairs to higher order rewriting systems wi...
International audienceDependency pairs are a key concept at the core of modern automated termination...
Refinement types are a well-studied manner of performing in-depth analysis on functional programs. T...
Abstract. A static dependency pair method, proposed by us, can effectively prove termination of simp...
Dependency pairs are a key concept at the core of modern automated termination provers for first-ord...
Abstract. The dependency pair technique is a powerful modular method for automated termination proof...
International audienceHigher-order rewrite systems (HRSs) and simply-typed term rewriting systems (S...
Abstract. Higher-order rewrite systems (HRSs) and simply-typed term rewriting systems (STRSs) are co...
IEICE Technical Report SS2010-24, Vol. 110, No. 169.The static dependency pair method is a method fo...
International audienceThe static dependency pair method is a method for proving the termination of h...
IEICE Technical Report SS2010-24, Vol. 110, No. 169.The static dependency pair method is a method fo...
Abstract The higher-order rewrite systems (HRS for short) are a computation model of functional prog...
Abstract The higher-order rewrite systems (HRS for short) are a computation model of functional prog...
We revisit the static dependency pair method for proving termination of higher-order term rewriting ...
International audienceArts and Giesl proved that the termination of a first-order rewrite system can...
We extend the termination method using dynamic dependency pairs to higher order rewriting systems wi...
International audienceDependency pairs are a key concept at the core of modern automated termination...
Refinement types are a well-studied manner of performing in-depth analysis on functional programs. T...
Abstract. A static dependency pair method, proposed by us, can effectively prove termination of simp...
Dependency pairs are a key concept at the core of modern automated termination provers for first-ord...
Abstract. The dependency pair technique is a powerful modular method for automated termination proof...