We introduce new possibilities to control the application of rules based on the preceding applications, which can be de ned in a general way for (hierarchical) P systems and the main known derivation modes. Computational completeness can be obtained even for one-membrane P systems with non-cooperative rules and using both activation and blocking of rules, especially for the set modes of derivation. When we allow the application of rules to in uence the application of rules in previous derivation steps, applying a non-conservative semantics for what we consider to be a derivation step, we can even \go beyond Turing"
In this paper we propose a new kind of rules inside the regions of a P system. We have called them ...
We present an operational semantics of the membrane systems, using an appropriate notion of configur...
We introduce a new variant of membrane systems where the rules are directly assigned to membranes (...
International audienceWe introduce new possibilities to control the application of rules based on th...
The concept of a matter object being annihilated when meeting its corresponding anti-matter object ...
This article brings together some rather powerful results on P systems in which the computation is p...
This paper proposes a new model of P systems where the rules are activated by objects present in th...
AbstractWe describe an extension of P systems where each membrane has an associated control nucleus ...
We consider a uniform way of treating objects and rules in P systems: we start with multisets of rul...
Languages appeared from the very beginning in membrane computing, by their length sets or directly a...
We consider (tissue) P systems using non-cooperative rules, but considering computations without ha...
Abstract. In this paper we provide a semantics for membrane systems given by rewriting strategies. W...
We examine, from the point of view of membrane computing, the two basic assumptions of reaction sys...
We show that recogniser P systems with active membranes can be augmented with a priority over their...
This article shows how the computational universality can be reached by using P systems with object...
In this paper we propose a new kind of rules inside the regions of a P system. We have called them ...
We present an operational semantics of the membrane systems, using an appropriate notion of configur...
We introduce a new variant of membrane systems where the rules are directly assigned to membranes (...
International audienceWe introduce new possibilities to control the application of rules based on th...
The concept of a matter object being annihilated when meeting its corresponding anti-matter object ...
This article brings together some rather powerful results on P systems in which the computation is p...
This paper proposes a new model of P systems where the rules are activated by objects present in th...
AbstractWe describe an extension of P systems where each membrane has an associated control nucleus ...
We consider a uniform way of treating objects and rules in P systems: we start with multisets of rul...
Languages appeared from the very beginning in membrane computing, by their length sets or directly a...
We consider (tissue) P systems using non-cooperative rules, but considering computations without ha...
Abstract. In this paper we provide a semantics for membrane systems given by rewriting strategies. W...
We examine, from the point of view of membrane computing, the two basic assumptions of reaction sys...
We show that recogniser P systems with active membranes can be augmented with a priority over their...
This article shows how the computational universality can be reached by using P systems with object...
In this paper we propose a new kind of rules inside the regions of a P system. We have called them ...
We present an operational semantics of the membrane systems, using an appropriate notion of configur...
We introduce a new variant of membrane systems where the rules are directly assigned to membranes (...