Summary. After a short introduction to the area of membrane computing (a branch of natural computing), we introduce the concept of anti-matter in membrane comput-ing. 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.
Classical membrane systems with symport/antiport rules observe the con- servation law, in the sense...
: The P ?=NP question is one of the outstanding open problems in theoretical computer science. The ...
Membrane Computing was introduced as a computational paradigm in Natural Computing. The models intro...
After a short introduction to the area of membrane computing (a branch of natural computing), we in...
We give an informal presentation of the basic ideas, results, and applications of membrane computing...
International audienceThe concept of a matter object being annihilated when meeting its correspondin...
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 ...
Cell-like P systems with symport/antiport rules are computing models inspired by theconservation law...
It is well known that the polynomial complexity class of recognizer polarizationless P systems with...
The concept of a matter object being annihilated when meeting its corresponding anti-matter object ...
Membrane Computing, introduced by Gh. Paun at the end of 1998, is a relatively young branch of Natur...
AbstractA P system is a natural computing model inspired by information processing in cells and cell...
Abstract. A P system is a natural computing model inspired by in-formation processes in cells and a ...
5noWe give a characterisation of the class of problems solved in polynomial time by uniform and semi...
Classical membrane systems with symport/antiport rules observe the con- servation law, in the sense...
: The P ?=NP question is one of the outstanding open problems in theoretical computer science. The ...
Membrane Computing was introduced as a computational paradigm in Natural Computing. The models intro...
After a short introduction to the area of membrane computing (a branch of natural computing), we in...
We give an informal presentation of the basic ideas, results, and applications of membrane computing...
International audienceThe concept of a matter object being annihilated when meeting its correspondin...
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 ...
Cell-like P systems with symport/antiport rules are computing models inspired by theconservation law...
It is well known that the polynomial complexity class of recognizer polarizationless P systems with...
The concept of a matter object being annihilated when meeting its corresponding anti-matter object ...
Membrane Computing, introduced by Gh. Paun at the end of 1998, is a relatively young branch of Natur...
AbstractA P system is a natural computing model inspired by information processing in cells and cell...
Abstract. A P system is a natural computing model inspired by in-formation processes in cells and a ...
5noWe give a characterisation of the class of problems solved in polynomial time by uniform and semi...
Classical membrane systems with symport/antiport rules observe the con- servation law, in the sense...
: The P ?=NP question is one of the outstanding open problems in theoretical computer science. The ...
Membrane Computing was introduced as a computational paradigm in Natural Computing. The models intro...