In Membrane Computing, the solution of a decision problem X belonging to the complexity class P via a polynomially uniform family of recognizer P systems is trivial, since the polynomial encoding of the input can involve the solution of the problem. The design of such solution has one membrane, two objects, two rules and one computation step. Stricto sensu, it is a solution in the framework of Membrane Computing, but it does not use Membrane Computing strategies. In this paper, we present three designs of uniform families of P systems that solve the decision problem STCON by using Membrane Computing strategies (pure Membrane Computing techniques): P systems with membrane creation, P systems with active membranes with dissolution and...
In this work we revisit the basic concepts, definitions of computational complexity theory in membr...
Many NP-complete problems can be viewed as special cases of the Common Algorithmic Problem (CAP). I...
A P system is a novel computing model introduced by Paun in the area of membrane computing. It is kn...
In Membrane Computing, the solution of a decision problem X belonging to the complexity class P via...
The search for effcient solutions of computationally hard problems by means of families of membrane...
We study the computational efficiency of recognizer P systems with active membranes without polariz...
We investigate polarizationless P systems with active membranes working in maximally parallel manne...
Among the computational features that determine the computing power of polarizationless P systems wi...
Many variants of P systems have the ability to generate an exponential number of membranes in linea...
In this paper, a computational complexity theory within the framework of Membrane Computing is intr...
We are going to present a polynomially uniform solution to the Quanti ed 3SAT decision problem with...
Recognizer P systems with active membranes have proven to be very powerful computing devices, being...
Presumably efficient computing models are characterized by their capability to provide polynomial-ti...
In this paper we introduce the complexity class PMC∗ F of all decision problems solvable in polyno...
A single Turing machine can solve decision problems with an in nite number of instances. On the oth...
In this work we revisit the basic concepts, definitions of computational complexity theory in membr...
Many NP-complete problems can be viewed as special cases of the Common Algorithmic Problem (CAP). I...
A P system is a novel computing model introduced by Paun in the area of membrane computing. It is kn...
In Membrane Computing, the solution of a decision problem X belonging to the complexity class P via...
The search for effcient solutions of computationally hard problems by means of families of membrane...
We study the computational efficiency of recognizer P systems with active membranes without polariz...
We investigate polarizationless P systems with active membranes working in maximally parallel manne...
Among the computational features that determine the computing power of polarizationless P systems wi...
Many variants of P systems have the ability to generate an exponential number of membranes in linea...
In this paper, a computational complexity theory within the framework of Membrane Computing is intr...
We are going to present a polynomially uniform solution to the Quanti ed 3SAT decision problem with...
Recognizer P systems with active membranes have proven to be very powerful computing devices, being...
Presumably efficient computing models are characterized by their capability to provide polynomial-ti...
In this paper we introduce the complexity class PMC∗ F of all decision problems solvable in polyno...
A single Turing machine can solve decision problems with an in nite number of instances. On the oth...
In this work we revisit the basic concepts, definitions of computational complexity theory in membr...
Many NP-complete problems can be viewed as special cases of the Common Algorithmic Problem (CAP). I...
A P system is a novel computing model introduced by Paun in the area of membrane computing. It is kn...