Add to ORKGIn the framework of cell–like membrane systems it is well known that the construction of exponential number of objects in polynomial time is not enough to efficiently solve NP–complete problems. Nonetheless, it may be sufficient to create an exponential number of membranes in polynomial time. In the framework of recognizer polarizationless P systems with active membranes, the construction of an exponential workspace expressed in terms of number of membranes and objects may not suffice to efficiently solve computationally hard problems. In this paper we study the computational efficiency of recognizer tissue P systems with communication (symport/antiport) rules and division rules. Some results have been already obtained in this dire...
The most investigated variants of P systems in the last years are cell-like models, especially in t...
Classical membrane systems with symport/antiport rules observe the con- servation law, in the sense...
Cell fission process consists of the division of a cell into two new cells such that the contents o...
In the framework of recognizer cell–like membrane systems it is well known that the construction of ...
In the framework of recognizer cell–like membrane systems it is well known that the construction of...
In the framework of recognizer cell–like membrane systems it is well known that the construction of...
In the framework of recognizer cell–like membrane systems it is well known that the construction of ...
In the framework of P systems, it is known that the construction of exponential number of objects i...
In tissue P systems several cells (elementary membranes) communicate through symport/antiport rules,...
Tissue P systems generalize the membrane structure tree usual in original models of P systems to an ...
In tissue P systems several cells (elementary membranes) communicate through symport/antiport rules...
Tissue P systems with evolutional communication (symport/antiport) rules are computational models in...
Tissue P systems generalize the membrane structure tree usual in original models of P systems to an ...
In tissue P systems several cells (elementary membranes) commu- nicate through symport/antiport rul...
Membrane ssion is a process by which a biological membrane is split into two new ones in such a wa...
The most investigated variants of P systems in the last years are cell-like models, especially in t...
Classical membrane systems with symport/antiport rules observe the con- servation law, in the sense...
Cell fission process consists of the division of a cell into two new cells such that the contents o...
In the framework of recognizer cell–like membrane systems it is well known that the construction of ...
In the framework of recognizer cell–like membrane systems it is well known that the construction of...
In the framework of recognizer cell–like membrane systems it is well known that the construction of...
In the framework of recognizer cell–like membrane systems it is well known that the construction of ...
In the framework of P systems, it is known that the construction of exponential number of objects i...
In tissue P systems several cells (elementary membranes) communicate through symport/antiport rules,...
Tissue P systems generalize the membrane structure tree usual in original models of P systems to an ...
In tissue P systems several cells (elementary membranes) communicate through symport/antiport rules...
Tissue P systems with evolutional communication (symport/antiport) rules are computational models in...
Tissue P systems generalize the membrane structure tree usual in original models of P systems to an ...
In tissue P systems several cells (elementary membranes) commu- nicate through symport/antiport rul...
Membrane ssion is a process by which a biological membrane is split into two new ones in such a wa...
The most investigated variants of P systems in the last years are cell-like models, especially in t...
Classical membrane systems with symport/antiport rules observe the con- servation law, in the sense...
Cell fission process consists of the division of a cell into two new cells such that the contents o...