Cell-like P systems with polarizations and minimal rules

Description

P systems with active membranes are a class of computation models in the area ofmembrane computing, which are inspired from the mechanism by which chemicalsinteract and cross cell membranes. In this work, we consider a normal form of P systemswith active membranes, called cell-like P systems with polarizations and minimal rules,where rules are minimal in the sense that an object evolves to exactly one object withthe application of an evolution rule or a communication rule, or an object evolves to twoobjects that are assigned to the two new generated membranes by applying a division rule.The present work investigates the computational power of P systems with polarizationsand minimal rules. Specifically, results about Turing universality and non-universality areobtained with the combination of the number of membranes, the number of polarizations,and the types of rules. We also show that polarizationless P systems with minimal rules areequivalent to Turing machines working in a polynomial space, that is, the class of problemsthat can be solved in polynomial time by polarizationless P systems with minimal rules isequal to the classPSPACE.

Abstract

Ministerio de Economía, Industria y Competitividad TIN2017-89842-P (MABICAP)

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