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A reduction-based theorem prover for 3-valued logic.

Gabriel Aguilera VenegasInmaculada Pérez de GuzmánManuel Ojeda Aciego — 1997

Mathware and Soft Computing

We present a new prover for propositional 3-valued logics, TAS-M3, which is an extension of the TAS-D prover for classical propositional logic. TAS-M3 uses the TAS methodology and, consequently, it is a reduction-based method. Thus, its power is based on the reductions of the size of the formula executed by the F transformation. This transformation dynamically filters the information contained in the syntactic structure of the formula to avoid as much distributions as possible, in order to improve...

A neural implementation of multi-adjoint logic programs via sf-homogenization.

Jesús MedinaEnrique Mérida-CasermeiroManuel Ojeda-Aciego — 2005

Mathware and Soft Computing

A generalization of the homogenization process needed for the neural implementation of multi-adjoint logic programming (a unifying theory to deal with uncertainty, imprecise data or incomplete information) is presented here. The idea is to allow to represent a more general family of adjoint pairs, but maintaining the advantage of the existing implementation recently introduced in [6]. The soundness of the transformation is proved and its complexity is analysed. In addition, the corresponding generalization...

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