AbstractTransport of substances and communication between compartments are fundamental biological processes, often mediated by the presence of complementary proteins attached to the surfaces of membranes. Within compartments, substances are acted upon by local biochemical rules. Inspired by this behaviour we present a model based on membrane systems, with objects attached to the sides of the membranes and floating objects that can move between the regions of the system. Moreover, in each region there are evolution rules that rewrite the transported objects, mimicking chemical reactions. We first analyse the system, showing that interesting qualitative properties can be decided (like reachability of configurations) and then present a simulat...
AbstractMembrane computing is a biologically inspired computational paradigm. Motivated by brane cal...
AbstractIn this paper, we look at the expressive power of P systems with proteins embedded on the me...
Membrane computing is a biologically inspired computational paradigm. Motivated by brane calculi we ...
Transport of substances and communication between compartments are fundamental biological processes,...
AbstractTransport of substances and communication between compartments are fundamental biological pr...
AbstractTransport of substances and communication between compartments are fundamental biological pr...
Transport of substances and communication between compartments are fundamental biological processes,...
Membrane systems were originally introduced as models of computation inspired by the structure and t...
AbstractMembrane systems with peripheral proteins are essentially standard membrane systems with the...
Membrane computing is an emerging research field that belongs to the more general area of molecular ...
AbstractMembrane computing is a biologically inspired computational paradigm. Motivated by brane cal...
Membrane systems with peripheral proteins are essentially standard membrane systems with the possibi...
In this paper we introduce mutual mobile membranes with surface objects, systems which have biologi...
Compartments and membranes are the basis of cell topology and more than 30% of the human genome code...
AbstractA membrane system is a model of computation which is inspired by some basic features of biol...
AbstractMembrane computing is a biologically inspired computational paradigm. Motivated by brane cal...
AbstractIn this paper, we look at the expressive power of P systems with proteins embedded on the me...
Membrane computing is a biologically inspired computational paradigm. Motivated by brane calculi we ...
Transport of substances and communication between compartments are fundamental biological processes,...
AbstractTransport of substances and communication between compartments are fundamental biological pr...
AbstractTransport of substances and communication between compartments are fundamental biological pr...
Transport of substances and communication between compartments are fundamental biological processes,...
Membrane systems were originally introduced as models of computation inspired by the structure and t...
AbstractMembrane systems with peripheral proteins are essentially standard membrane systems with the...
Membrane computing is an emerging research field that belongs to the more general area of molecular ...
AbstractMembrane computing is a biologically inspired computational paradigm. Motivated by brane cal...
Membrane systems with peripheral proteins are essentially standard membrane systems with the possibi...
In this paper we introduce mutual mobile membranes with surface objects, systems which have biologi...
Compartments and membranes are the basis of cell topology and more than 30% of the human genome code...
AbstractA membrane system is a model of computation which is inspired by some basic features of biol...
AbstractMembrane computing is a biologically inspired computational paradigm. Motivated by brane cal...
AbstractIn this paper, we look at the expressive power of P systems with proteins embedded on the me...
Membrane computing is a biologically inspired computational paradigm. Motivated by brane calculi we ...