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 ...
[EN] In this paper, we present LOIMOS, which is an epidemiological scenario simulator developed in the context of the fight against the pandemic caused by coronavirus SARS-CoV-2 on a global scale. LOIMOS has been fully ...
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. ...
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 ...
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 ...