AbstractIn addressing certain problems about membrane computing, a recent and active branch of natural computing, it first was necessary to address certain problems from the area of regulated rewriting. Thus, the present paper is a contribution to both these domains.A central problem in membrane computing is that of the hierarchy with respect to the number of membranes: Are systems with n+1 membranes more powerful than systems with n membranes? Does the number of membranes induce an infinite hierarchy of the computed functions? Usually, when proving the universality of membrane systems (also called P systems), one starts from a matrix grammar and the number of membranes depends on the number of non-terminal symbols used by this grammar in t...
In P systems with gemmation of mobile membranes were ex- amined. It was shown that (extended) syste...
We consider a uniform way of treating objects and rules in P systems: we start with multisets of rul...
In this paper we consider P systems with linear membrane structures (only one membrane is elementar...
AbstractIn addressing certain problems about membrane computing, a recent and active branch of natur...
AbstractWe continue the analysis of P systems with gemmation of mobile membranes. We solve an open p...
AbstractGenerally, for proving universality results about rewriting P systems one considers matrix g...
We improve, by using register machines, some existing universality results for specific models of P...
AbstractWe look at a restricted model of a communicating P system, called RCPS, whose environment do...
We consider P systems with only one membrane using symport/antiport rules and prove that any recurs...
We continue the analysis of P systems with gemmation of mobile membranes. We solve an open problem ...
We present an operational semantics of the membrane systems, using an appropriate notion of configur...
We improve, by using register machines, some existing universality results for specific models of P ...
We continue here the attempt to bridge brane calculi with membrane computing, following the investig...
Membrane computing is a branch of natural computing which abstracts computing models from the struct...
We consider here a variant of rewriting P systems [1], where communication is controlled by the cont...
In P systems with gemmation of mobile membranes were ex- amined. It was shown that (extended) syste...
We consider a uniform way of treating objects and rules in P systems: we start with multisets of rul...
In this paper we consider P systems with linear membrane structures (only one membrane is elementar...
AbstractIn addressing certain problems about membrane computing, a recent and active branch of natur...
AbstractWe continue the analysis of P systems with gemmation of mobile membranes. We solve an open p...
AbstractGenerally, for proving universality results about rewriting P systems one considers matrix g...
We improve, by using register machines, some existing universality results for specific models of P...
AbstractWe look at a restricted model of a communicating P system, called RCPS, whose environment do...
We consider P systems with only one membrane using symport/antiport rules and prove that any recurs...
We continue the analysis of P systems with gemmation of mobile membranes. We solve an open problem ...
We present an operational semantics of the membrane systems, using an appropriate notion of configur...
We improve, by using register machines, some existing universality results for specific models of P ...
We continue here the attempt to bridge brane calculi with membrane computing, following the investig...
Membrane computing is a branch of natural computing which abstracts computing models from the struct...
We consider here a variant of rewriting P systems [1], where communication is controlled by the cont...
In P systems with gemmation of mobile membranes were ex- amined. It was shown that (extended) syste...
We consider a uniform way of treating objects and rules in P systems: we start with multisets of rul...
In this paper we consider P systems with linear membrane structures (only one membrane is elementar...