After a short introduction to the area of membrane computing (a branch of natural computing), we introduce the concept of anti-matter in membrane computing. First we consider spiking neural P systems with anti-spikes, and then we show the power of anti-matter in cell-like P systems. As expected, the use of anti-matter objects and especially of matter/anti-matter annihilation rules, turns out to be rather powerful: computational completeness of P systems with anti-matter is obtained immediately, even without using catalysts. Finally, some open problems are formulated, too
The objectives of this memory are, on one hand, to provide a general overview about the topic of Me...
It is proved that four membranes su±ce to P systems with minimal symport/antiport to generate all r...
Cell-like P systems where communication between the regions are carried out by rules of type symport...
Summary. After a short introduction to the area of membrane computing (a branch of natural computing...
The concept of a matter object being annihilated when meeting its corresponding anti-matter object ...
The concept of a matter object being annihilated when meeting its corresponding anti-matter object ...
We give an informal presentation of the basic ideas, results, and applications of membrane computing...
The concept of a matter object being annihilated when meeting its corresponding anti-matter object ...
International audienceThe concept of a matter object being annihilated when meeting its correspondin...
Membrane Computing, introduced by Gh. Paun at the end of 1998, is a relatively young branch of Natur...
It is well known that the polynomial complexity class of recognizer polarizationless P systems with...
P systems with active membranes is a widely studied framework within the field of Membrane Computin...
Cell-like P systems with symport/antiport rules are computing models inspired by theconservation law...
Cell-like spiking neural (cSN) P systems are a class of distributed and parallel computation models ...
Classical membrane systems with symport/antiport rules observe the con- servation law, in the sense...
The objectives of this memory are, on one hand, to provide a general overview about the topic of Me...
It is proved that four membranes su±ce to P systems with minimal symport/antiport to generate all r...
Cell-like P systems where communication between the regions are carried out by rules of type symport...
Summary. After a short introduction to the area of membrane computing (a branch of natural computing...
The concept of a matter object being annihilated when meeting its corresponding anti-matter object ...
The concept of a matter object being annihilated when meeting its corresponding anti-matter object ...
We give an informal presentation of the basic ideas, results, and applications of membrane computing...
The concept of a matter object being annihilated when meeting its corresponding anti-matter object ...
International audienceThe concept of a matter object being annihilated when meeting its correspondin...
Membrane Computing, introduced by Gh. Paun at the end of 1998, is a relatively young branch of Natur...
It is well known that the polynomial complexity class of recognizer polarizationless P systems with...
P systems with active membranes is a widely studied framework within the field of Membrane Computin...
Cell-like P systems with symport/antiport rules are computing models inspired by theconservation law...
Cell-like spiking neural (cSN) P systems are a class of distributed and parallel computation models ...
Classical membrane systems with symport/antiport rules observe the con- servation law, in the sense...
The objectives of this memory are, on one hand, to provide a general overview about the topic of Me...
It is proved that four membranes su±ce to P systems with minimal symport/antiport to generate all r...
Cell-like P systems where communication between the regions are carried out by rules of type symport...