We show that recogniser P systems with active membranes can be augmented with a priority over their set of rules and any number of membrane charges without loss of generality, as they can be simulated by standard P systems with active membranes, in particular using only two charges. Furthermore, we show that more general accepting conditions, such as sending out several, possibly contradictory results and keeping only the first one, or rejecting by halting without output, are also equivalent to the standard accepting conditions. The simulations we propose are always without significant loss of efficiency, and thus the results of this paper can hopefully simplify the design of algorithms for P systems with active membranes
P systems with active membranes, in their classical definition, make use of noncooperative rules on...
Two proofs have been shown for P systems with active membranes in previ- ously published papers, de...
In this paper we de¯ne a general class of P systems covering some biological operations with membra...
5noWe show that recogniser P systems with active membranes can be augmented with a priority over the...
We identify a family of decision problems that are hard for some complexity classes defined in term...
We study the computational efficiency of recognizer P systems with active membranes without polariz...
We are going to present a polynomially uniform solution to the Quanti ed 3SAT decision problem with...
We prove that uniform families of P systems with active membranes operat- ing in polynomial time ca...
P systems with active membranes using only two electrical charges and only rules of types (a) and (...
P systems with active membranes is a widely studied framework within the field of Membrane Computin...
In this paper we study membrane dissolution rules in the framework of P systems with active membran...
In this paper we consider three restricted variants of P systems with active membranes: (1) P syste...
Formal verification of P systems using model checking has attracted a significant amount of researc...
AbstractWe prove that recognising P systems with active membranes operating in asynchronous mode are...
We prove that asynchronous P systems with active membranes without divi- sion rules can be simulate...
P systems with active membranes, in their classical definition, make use of noncooperative rules on...
Two proofs have been shown for P systems with active membranes in previ- ously published papers, de...
In this paper we de¯ne a general class of P systems covering some biological operations with membra...
5noWe show that recogniser P systems with active membranes can be augmented with a priority over the...
We identify a family of decision problems that are hard for some complexity classes defined in term...
We study the computational efficiency of recognizer P systems with active membranes without polariz...
We are going to present a polynomially uniform solution to the Quanti ed 3SAT decision problem with...
We prove that uniform families of P systems with active membranes operat- ing in polynomial time ca...
P systems with active membranes using only two electrical charges and only rules of types (a) and (...
P systems with active membranes is a widely studied framework within the field of Membrane Computin...
In this paper we study membrane dissolution rules in the framework of P systems with active membran...
In this paper we consider three restricted variants of P systems with active membranes: (1) P syste...
Formal verification of P systems using model checking has attracted a significant amount of researc...
AbstractWe prove that recognising P systems with active membranes operating in asynchronous mode are...
We prove that asynchronous P systems with active membranes without divi- sion rules can be simulate...
P systems with active membranes, in their classical definition, make use of noncooperative rules on...
Two proofs have been shown for P systems with active membranes in previ- ously published papers, de...
In this paper we de¯ne a general class of P systems covering some biological operations with membra...