In this paper a variant of P systems with external output designed to compute functions on natural numbers is presented. These P systems are stable under composition and iteration of functions. We prove that every diophantine set can be generated by such P systems; then, the universality of this model can be deduced from the theorem by Matiyasevich, Robinson, Davis and Putnam in which they establish that every recursively enumerable set is a diophantine set
We present an operational semantics of the membrane systems, using an appropriate notion of configur...
This article brings together some rather powerful results on P systems in which the computation is p...
International audienceWe formalise the undecidability of solvability of Diophantine equations, i.e. ...
In this paper a variant of transition P systems with external output designed to compute partial fu...
We introduce decision P systems, which are a class of P systems with symbol-objects and external ou...
We improve, by using register machines, some existing universality results for specific models of P ...
Virus Machines are a computational paradigm inspired by the manner in which viruses replicate and t...
Up to now, P systems dealing with numerical problems have been rarely considered in the literature....
AbstractA new method of coding Diophantine equations is introduced. This method allows (i) checking ...
Abstract. With inspiration from the economic reality, where numbers are basic entities to work with,...
We improve, by using register machines, some existing universality results for specific models of P...
Membrane Computing is a branch of Natural Computing which starts from the assumption that the proce...
Abstract. We consider the idea of controlling the evolution of a membrane system. In particular, we ...
We consider a uniform way of treating objects and rules in P systems: we start with multisets of rul...
AbstractA P system is a natural computing model inspired by information processing in cells and cell...
We present an operational semantics of the membrane systems, using an appropriate notion of configur...
This article brings together some rather powerful results on P systems in which the computation is p...
International audienceWe formalise the undecidability of solvability of Diophantine equations, i.e. ...
In this paper a variant of transition P systems with external output designed to compute partial fu...
We introduce decision P systems, which are a class of P systems with symbol-objects and external ou...
We improve, by using register machines, some existing universality results for specific models of P ...
Virus Machines are a computational paradigm inspired by the manner in which viruses replicate and t...
Up to now, P systems dealing with numerical problems have been rarely considered in the literature....
AbstractA new method of coding Diophantine equations is introduced. This method allows (i) checking ...
Abstract. With inspiration from the economic reality, where numbers are basic entities to work with,...
We improve, by using register machines, some existing universality results for specific models of P...
Membrane Computing is a branch of Natural Computing which starts from the assumption that the proce...
Abstract. We consider the idea of controlling the evolution of a membrane system. In particular, we ...
We consider a uniform way of treating objects and rules in P systems: we start with multisets of rul...
AbstractA P system is a natural computing model inspired by information processing in cells and cell...
We present an operational semantics of the membrane systems, using an appropriate notion of configur...
This article brings together some rather powerful results on P systems in which the computation is p...
International audienceWe formalise the undecidability of solvability of Diophantine equations, i.e. ...