AbstractThis paper considers a generalization of various communication models based on the P system paradigm where two objects synchronously move across components. More precisely, the model uses blocks of four cells such that pairs of objects from two input cells travel together to target output cells. It is shown that the model introduced, based on interactions between blocks, is complete, being able to generate all recursively enumerable sets of natural numbers. It is also proven that completeness is achievable by using a minimal interaction between blocks, i.e. every pair of cells is the input or output for at most one block. It is also shown that the concepts introduced in this paper to define the model may be simulated by more particu...
P systems are parallel molecular computing models which process multisets of objects in cell-like m...
Moving \instructions" instead of \data", using transport mecha- nisms inspired by biology { this co...
AbstractWe consider tissue-like P systems with states associated with the links (we call them synaps...
AbstractThis paper considers a generalization of various communication models based on the P system ...
AbstractGeneralized communicating P systems are purely communicating tissue-like membrane systems wi...
YesIn this paper we consider four restricted cases of the generalised communicating P systems and s...
It is proved that four membranes su±ce to P systems with minimal symport/antiport to generate all r...
This paper proposes a new model of P systems where the rules are activated by objects present in th...
This article brings together some rather powerful results on P systems in which the computation is p...
Membrane systems with symport/antiport rules compute by just moving objects among membranes, and no...
Cell-like P systems with symport/antiport rules are inspired by the structure of a cell and the way...
A purely communicative variant of P systems was considered recently, based on the trans-membrane tra...
Looking for a theory of communication complexity for P systems, we consider here so-called evolutio...
In this paper we consider symport/antiport P systems with one membrane and rules having at most two...
Membrane computing is a (biologically motivated) theoretical framework of distributed parallel comp...
P systems are parallel molecular computing models which process multisets of objects in cell-like m...
Moving \instructions" instead of \data", using transport mecha- nisms inspired by biology { this co...
AbstractWe consider tissue-like P systems with states associated with the links (we call them synaps...
AbstractThis paper considers a generalization of various communication models based on the P system ...
AbstractGeneralized communicating P systems are purely communicating tissue-like membrane systems wi...
YesIn this paper we consider four restricted cases of the generalised communicating P systems and s...
It is proved that four membranes su±ce to P systems with minimal symport/antiport to generate all r...
This paper proposes a new model of P systems where the rules are activated by objects present in th...
This article brings together some rather powerful results on P systems in which the computation is p...
Membrane systems with symport/antiport rules compute by just moving objects among membranes, and no...
Cell-like P systems with symport/antiport rules are inspired by the structure of a cell and the way...
A purely communicative variant of P systems was considered recently, based on the trans-membrane tra...
Looking for a theory of communication complexity for P systems, we consider here so-called evolutio...
In this paper we consider symport/antiport P systems with one membrane and rules having at most two...
Membrane computing is a (biologically motivated) theoretical framework of distributed parallel comp...
P systems are parallel molecular computing models which process multisets of objects in cell-like m...
Moving \instructions" instead of \data", using transport mecha- nisms inspired by biology { this co...
AbstractWe consider tissue-like P systems with states associated with the links (we call them synaps...