Add to ORKGTissue P systems generalize the membrane structure tree usual in original models of P systems to an arbitrary graph. Basic opera- tions in these systems are communication rules, enriched in some variants with cell division or cell separation. Several variants of tissue P systems were recently studied, together with the concept of uniform families of these systems. Their computational power was shown to range between P and NP ? co-NP , thus characterizing some interesting borderlines between tractability and intractability. In this paper we show that com- putational power of these uniform families in polynomial time is limited by the class PSPACE . This class characterizes the power of many clas- sical parallel computing model
Tissue-like P systems with cell division is a computing model in the framework of Membrane Computin...
Tissue P systems with evolutional communication (symport/antiport) rules are computational models in...
In this paper we address the problem of describing the complexity of the evolution of a tissue-like...
Tissue P systems generalize the membrane structure tree usual in original models of P systems to an ...
In the framework of P systems, it is known that the construction of exponential number of objects i...
In the framework of cell–like membrane systems it is well known that the construction of exponentia...
Tissue-like P systems with cell division is a computing model in the framework of Membrane Computin...
The most investigated variants of P systems in the last years are cell-like models, especially in t...
In tissue P systems several cells (elementary membranes) communicate through symport/antiport rules...
In tissue P systems several cells (elementary membranes) communicate through symport/antiport rules,...
Tissue P systems are a class of distributed parallel computing devices inspired by biochemical inte...
The standard definition of tissue P systems includes a special alphabet whose elements are assumed t...
The efficiency of computational devices is usually expressed in terms of their capability to solve ...
AbstractMembrane systems, also called P systems, are biologically inspired theoretical models of dis...
In tissue P systems several cells (elementary membranes) commu- nicate through symport/antiport rul...
Tissue-like P systems with cell division is a computing model in the framework of Membrane Computin...
Tissue P systems with evolutional communication (symport/antiport) rules are computational models in...
In this paper we address the problem of describing the complexity of the evolution of a tissue-like...
Tissue P systems generalize the membrane structure tree usual in original models of P systems to an ...
In the framework of P systems, it is known that the construction of exponential number of objects i...
In the framework of cell–like membrane systems it is well known that the construction of exponentia...
Tissue-like P systems with cell division is a computing model in the framework of Membrane Computin...
The most investigated variants of P systems in the last years are cell-like models, especially in t...
In tissue P systems several cells (elementary membranes) communicate through symport/antiport rules...
In tissue P systems several cells (elementary membranes) communicate through symport/antiport rules,...
Tissue P systems are a class of distributed parallel computing devices inspired by biochemical inte...
The standard definition of tissue P systems includes a special alphabet whose elements are assumed t...
The efficiency of computational devices is usually expressed in terms of their capability to solve ...
AbstractMembrane systems, also called P systems, are biologically inspired theoretical models of dis...
In tissue P systems several cells (elementary membranes) commu- nicate through symport/antiport rul...
Tissue-like P systems with cell division is a computing model in the framework of Membrane Computin...
Tissue P systems with evolutional communication (symport/antiport) rules are computational models in...
In this paper we address the problem of describing the complexity of the evolution of a tissue-like...