issue P systems with channel states are a class of bio-inspired parallel computational models, where rules are used in a sequential manner (on each channel, at most one rule can be used at each step). In this work, tissue P systems with channel states working in a flat maximally parallel way are considered, where at each step, on each channel, a maximal set of applicable rules that pass from a given state to a unique next state, is chosen and each rule in the set is applied once. The computational power of such P systems is investigated. Specifically, it is proved that tissue P systems with channel states and antiport rules of length two are able to compute Parikh sets of finite languages, and such P systems with one cell and noncooperative...
A current research topic in membrane computing is to find more realistic P systems from a biological...
In the framework of cell–like membrane systems it is well known that the construction of exponentia...
In tissue P systems several cells (elementary membranes) communicate through symport/antiport rules,...
AbstractWe consider tissue-like P systems with states associated with the links (we call them synaps...
We consider tissue-like P systems with states associated with the links (we call them synapses) bet...
Tissue P systems generalize the membrane structure tree usual in original models of P systems to an ...
Tissue P systems with evolutional communication (symport/antiport) rules are computational models in...
Cell-like P systems with symport/antiport rules are inspired by the structure of a cell and the way...
Tissue P systems are a class of distributed parallel computing devices inspired by biochemical inte...
In this note, we consider the problem of looking for small universal one-symbol tissue P systems wit...
We consider (tissue) P systems using non-cooperative rules, but considering computations without ha...
In the framework of P systems, it is known that the construction of exponential number of objects i...
The most investigated variants of P systems in the last years are cell-like models, especially in t...
AbstractStarting from the way the inter-cellular communication takes place by means of protein chann...
Tissue-like P systems with cell division is a computing model in the framework of Membrane Computin...
A current research topic in membrane computing is to find more realistic P systems from a biological...
In the framework of cell–like membrane systems it is well known that the construction of exponentia...
In tissue P systems several cells (elementary membranes) communicate through symport/antiport rules,...
AbstractWe consider tissue-like P systems with states associated with the links (we call them synaps...
We consider tissue-like P systems with states associated with the links (we call them synapses) bet...
Tissue P systems generalize the membrane structure tree usual in original models of P systems to an ...
Tissue P systems with evolutional communication (symport/antiport) rules are computational models in...
Cell-like P systems with symport/antiport rules are inspired by the structure of a cell and the way...
Tissue P systems are a class of distributed parallel computing devices inspired by biochemical inte...
In this note, we consider the problem of looking for small universal one-symbol tissue P systems wit...
We consider (tissue) P systems using non-cooperative rules, but considering computations without ha...
In the framework of P systems, it is known that the construction of exponential number of objects i...
The most investigated variants of P systems in the last years are cell-like models, especially in t...
AbstractStarting from the way the inter-cellular communication takes place by means of protein chann...
Tissue-like P systems with cell division is a computing model in the framework of Membrane Computin...
A current research topic in membrane computing is to find more realistic P systems from a biological...
In the framework of cell–like membrane systems it is well known that the construction of exponentia...
In tissue P systems several cells (elementary membranes) communicate through symport/antiport rules,...