Presentation
Restricted Polarizationless P Systems with Active Membranes: Minimal Cooperation Only Inwards
Author/s | Valencia Cabrera, Luis
Orellana Martín, David Martínez del Amor, Miguel Ángel Riscos Núñez, Agustín Pérez Jiménez, Mario de Jesús |
Department | Universidad de Sevilla. Departamento de Ciencias de la Computación e Inteligencia Artificial |
Publication Date | 2017 |
Deposit Date | 2017-12-21 |
Published in |
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ISBN/ISSN | 978-84-946316-9-6 |
Abstract | Membrane computing is a computing paradigm providing a class of distributed
parallel computing devices of a biochemical type whose process units represent
biological membranes. In the cell-like basic model, a hierarchical ... Membrane computing is a computing paradigm providing a class of distributed parallel computing devices of a biochemical type whose process units represent biological membranes. In the cell-like basic model, a hierarchical membrane structure formally described by a rooted tree is considered. It is well known that families of such systems where the number of membranes can only decrease during a computation (for instance by dissolving membranes), can only solve in polynomial time problems in class P. P systems with active membranes is a variant where membranes play a central role in their dynamics. In the seminal version, membranes have an electrical polarization (positive, negative, or neutral) associated in any instant, and besides being dissolved, they can also replicate by using division rules. These systems are computationally universal, that is, equivalent in power to deterministic Turing machines, and computationally effi cient, that is, able to solve computationally hard problems in polynomial time. If polarizations in membranes are removed and dissolution rules are forbidden, then only problems in class P can be solved in polynomial time by these systems (even in the case when division rules for non-elementary membranes are permitted). In that framework it has been shown that by considering minimal cooperation (left-hand side of such rules consists of at most two symbols) and minimal production (only one object is produced by the application of such rules) in object evolution rules, such systems provide effi cient solutions to NP{complete problems. In this paper, minimal cooperation and minimal production in communication rules instead of object evolution rules is studied, and the computational e fficiency of these systems is obtained in the case where division rules for non-elementary membranes are permitted. |
Citation | Valencia Cabrera, L., Orellana Martín, D., Martínez del Amor, M.Á., Riscos Núñez, A. y Pérez Jiménez, M.d.J. (2017). Restricted Polarizationless P Systems with Active Membranes: Minimal Cooperation Only Inwards. En BWMC 2017: 15th Brainstorming Week on Membrane Computing (215-252), Sevilla, España: Fenix Editora. |
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