Add to ORKGLukasiewicz quantum logic (LQL) is a particular example of a fuzzy quantum logic. LQL is semantically characterized by the class of all quantum MV algebras. The standard quantum MV algebra is based on the set of all effects in a Hilbert space. From the physical point of view, effects represent physical properties that may be noisy and ambiguous
International audienceConsidering links between logic and physics is important because of the fast d...
International audienceThe behavior of agents represented by Braitenberg vehicles is investigated in ...
Quantum computation is going to revolutionize the world of computing by enabling the design of massi...
In this paper, quantum logic is contrasted with both classical and fuzzy logics in order to highligh...
Quantum computational logics provide a fertile common ground for a unified treatment of vagueness an...
summary:A degree of probabilistic dependence is introduced in the classical logic using the Frank f...
AbstractQuantum processes provide a parallel model for fuzzy connectives. Calculations of quantum st...
Abstract. By making use of quantum parallelism, quantum processes provide parallel modelling for fuz...
International audienceWe propose a linear algebraic method, named Eigenlogic, for two-, many-valued ...
The theory of logical gates in quantum computation has suggested new forms of quantum logic, called ...
International audienceAdapting logic to physics addresses interesting questions. Non-classical logic...
International audienceEigenlogic proposes a new method in logic inspired from quantum theory using o...
International audienceWe propose a matrix model for two- and many-valued logic using families of obs...
The thesis aims to analyze the circuit model of quantum computation, from a fuzzy logico-algebraic p...
We apply residuated structures associated with fuzzy logic to develop certain aspects of information...
International audienceConsidering links between logic and physics is important because of the fast d...
International audienceThe behavior of agents represented by Braitenberg vehicles is investigated in ...
Quantum computation is going to revolutionize the world of computing by enabling the design of massi...
In this paper, quantum logic is contrasted with both classical and fuzzy logics in order to highligh...
Quantum computational logics provide a fertile common ground for a unified treatment of vagueness an...
summary:A degree of probabilistic dependence is introduced in the classical logic using the Frank f...
AbstractQuantum processes provide a parallel model for fuzzy connectives. Calculations of quantum st...
Abstract. By making use of quantum parallelism, quantum processes provide parallel modelling for fuz...
International audienceWe propose a linear algebraic method, named Eigenlogic, for two-, many-valued ...
The theory of logical gates in quantum computation has suggested new forms of quantum logic, called ...
International audienceAdapting logic to physics addresses interesting questions. Non-classical logic...
International audienceEigenlogic proposes a new method in logic inspired from quantum theory using o...
International audienceWe propose a matrix model for two- and many-valued logic using families of obs...
The thesis aims to analyze the circuit model of quantum computation, from a fuzzy logico-algebraic p...
We apply residuated structures associated with fuzzy logic to develop certain aspects of information...
International audienceConsidering links between logic and physics is important because of the fast d...
International audienceThe behavior of agents represented by Braitenberg vehicles is investigated in ...
Quantum computation is going to revolutionize the world of computing by enabling the design of massi...
