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Listar por palabra clave "Membrane computing"

Mostrando ítems 1-9 de 9

A membrane computing simulator of trans-hierarchical antibiotic resistance evolution dynamics in nested ecological compartments (ARES)

Campos Frances, Marcelino; Llorens, Carlos; Sempere Luna, José María; Futami, Ricardo; Rodríguez, Irene; Carrasco, Purificación; Capilla, Rafael; Latorre, Amparo; Coque, Teresa M.; Moya, Andrés; Baquero, Fernando (BioMed Central, 2015)

In this article, we introduce ARES (Antibiotic Resistance Evolution Simulator) a software device that simulates P-system model scenarios with five types of nested computing membranes oriented to emulate a hierarchy of ...
Families of languages encoded by SN P systems

Sempere Luna, José María (Springer-Verlag, 2018)

[EN] In this work, we propose the study of SN P systems as classical information encoders. By taking the spike train of an SN P system as a (binary) source of information, we can obtain different languages according to a ...
Modeling of Decision Trees Through P systems

Sempere Luna, José María (Springer-Verlag, 2019-09)

[EN] In this paper, we propose a decision-tree modeling in the framework of membrane computing. We propose an algorithm to obtain a P system that is equivalent to any decision tree taken as input. In our case, and unlike ...
Modelización de los cambios en marcadores fisiológicos durante la práctica de deporte mediante computación con membranas

Mestre Gisbert, Marc (Universitat Politècnica de València, 2023-09-11)

[ES] La evolución de los marcadores fisiológicos durante la práctica de deporte es un aspecto fundamental que se debe considerar tanto por razones sanitarias como de rendimiento deportivo. Disponer de una herramienta que ...
Simulación de modelos computacionales mediante computación con plásmidos

García López, Pablo (Universitat Politècnica de València, 2024-07-29)

[ES] Este Trabajo de Fin de Grado tiene como objetivo principal demostrar que la computación con plásmidos constituye un modelo de computación completo, capaz de simular máquinas de registros y, por ende, máquinas de Turing. ...
Simulating Multilevel Dynamics of Antimicrobial Resistance in a Membrane Computing Model

Campos Frances, Marcelino; Capilla, Rafael; Naya, Fernando; Futami, Ricardo; Coque, Teresa; Moya, Andrés; Fernández-Lanza, Val; Cantón, Rafael; Sempere Luna, José María; Llorens, Carlos; Baquero, Fernando (American Society for Microbiology, 2019-02)

[EN] Membrane computing is a bio-inspired computing paradigm whose devices are the so-called membrane systems or P systems. The P system designed in this work reproduces complex biological landscapes in the computer world. ...
Simulating the efficacy of vaccines on the epidemiological dynamics of SARS-CoV-2 in a membrane computing model

Campos Frances, Marcelino; Sempere Luna, José María; Galán, Juan C.; Moya, Andrés; Cantón, Rafael; Llorens, Carlos; Baquero, Fernando (Oxford University Press, 2022-09-16)

[EN] Membrane computing is a natural computing procedure inspired in the compartmental structure of living cells. This approach allows mimicking the complex structure of biological processes, and, when applied to transmissible ...
Simulating the impact of non-pharmaceutical interventions limiting transmission in COVID-19 epidemics using a membrane computing model

Campos Frances, Marcelino; Sempere Luna, José María; Galán, J. C.; Moya, A.; Llorens, C.; de-los-Angeles, C.; Baquero-Artigao, F.; Cantón, R.; Baquero, F. (Oxford University Press, 2021-09-09)

[EN] Epidemics caused by microbial organisms are part of the natural phenomena of increasing biological complexity. The heterogeneity and constant variability of hosts, in terms of age, immunological status, family structure, ...
Simulating the Influence of Conjugative-Plasmid Kinetic Values on the Multilevel Dynamics of Antimicrobial Resistance in a Membrane Computing Model

Campos Frances, Marcelino; San Millan, Alvaro; Sempere Luna, José María; Lanza, Val F.; Coque, Teresa M.; Llorens, Carlos; Baquero, Fernando (American Society for Microbiology, 2020-08)

[EN] Bacterial plasmids harboring antibiotic resistance genes are critical in the spread of antibiotic resistance. It is known that plasmids differ in their kinetic values, i.e., conjugation rate, segregation rate by copy ...