Validation of Heuristic Optimization Method based on a virus infection system

Díaz Payano, Claudia A.

Validación de un método heurístico de optimización basado en un sistema de infección por virus

dc.creator	Díaz Payano, Claudia A.
dc.date.accessioned	2020-09-10T20:26:58Z
dc.date.accessioned	2022-12-06T13:38:55Z
dc.date.available	2020-09-10T20:26:58Z
dc.date.available	2022-12-06T13:38:55Z
dc.date.created	2020-09-10T20:26:58Z
dc.identifier	https://repositoriobiblioteca.intec.edu.do/handle/123456789/2836
dc.identifier.uri	https://repositorioslatinoamericanos.uchile.cl/handle/2250/5239532
dc.publisher	Instituto Tecnológico de Santo Domingo (INTEC)
dc.relation	https://revistas.intec.edu.do/index.php/cite/article/view/1738/2270
dc.relation	https://revistas.intec.edu.do/index.php/cite/article/view/1738/2277
dc.relation	/ref/Bey, K. B., Bouzand, S., Benhammadi, F. y Nacer, H. (2019). Improved virus optimization algorithm for two-objective tasks scheduling in cloud environment. In Proceedings of the federated conference on computer science and information systems (pp. 109-117). Doi: 10.15439/2019F63
dc.relation	/ref/Carson, J. (2017). Genetic Algorithms: Advances in Research and Applications. New York, EE. UU.: Nova Science Publishers, Inc.
dc.relation	/ref/Cortés, P., García, J. M., Onieva, L., Muñuzuri, J. y Guadix, J. (2008). Viral System: A new bio-inspired optimisation approach. Computers & Operations Research, 35, 2840-2860.
dc.relation	/ref/Cortés, P., García, J. M., Muñuzuri, J. & Guadix, J. (2012). "Viral system algorithm: foundations and comparison between selective and massive infections". Transactions of the Institute of Measurement & Control, 34(6), 677–690. Doi:10.15439/2019F63
dc.relation	/ref/Del Valle, Y., Kumar, G., S. Mohagheghi, S., Hernandez, J.C. y Harley, R.G. (2007). Particle Swarm Optimization: Basic Concepts, Variants and Applications in Power Systems. IEEE Transactions on Evolutionary Computation, 12(2): 171–195.
dc.relation	/ref/Doerr, B. y Neumann, F. (2020). Theory of Evolutionary Computation: Recent Developments. In Discrete Optimization, Switzerland: Springer.
dc.relation	/ref/Du, K.L. y Swamy, M. N. S. (2016). Search and Optimization by Metaheuristics, Techniques and Algorithms Inspired by Nature, Basel Switzerland: Birkhäuser.
dc.relation	/ref/Harrington, D. (2017). Bacteriophages: An Overview and Synthesis of a Re-Emerging Field (Bacteriology Research Developments). New York, EE. UU.: Nova Science Publishers, Inc
dc.relation	/ref/Lira, C.F., (s. f.). Phage life cycle, [en línea]. Disponible en https://www.lifeder.com/ciclo-lisogenico/
dc.relation	/ref/López, J. (2015). Optimización Multi-objetivo. Aplicaciones a problemas en el mundo real. La Plata, Argentina: EDULP
dc.relation	/ref/Loeffelholz, M. J., Hodinka, R. L., Pinsky, B. & Young, S. A. (2016). Clinical Virology Manual. (Fifth ed.). Washington DC., EE. UU.: ASM Press
dc.relation	/ref/Mahy, B. W. J. (2001). A Dictionary of Virology: Vol. 3rd ed. California, EE.UU.: Academic Press.
dc.relation	/ref/Microdok, (s.f). Types of Virus, [en línea]. Disponible en https://microdok.com/taxonomy-of-viruses/
dc.relation	/ref/Microinmuno, Bacteriofagos. (s.f.). Disponible en http://www.microinmuno.qb.fcen.uba.ar/SeminarioBacteriofagos.htm
dc.relation	/ref/Miskevich, F. (2016). Microbiology. Florida, EEUU: QuickStudy Reference Guides
dc.relation	/ref/Tong, L., Dong, M., Ai, B. y Jing. C. (2018). A Simple Butterfly Particle Swarm Optimization Algorithm with the Fitness-based Adaptive Inertia Weight and the Opposition-based Learning Average Elite Strategy., Fundamenta Informaticae, 163(2), 205–223
dc.relation	/ref/Xinjie Y. y Mitsuo G. (2010). Introduction to evolutionary algorithms. London, England: Springer
dc.rights	Derechos de autor 2020 Ciencia, Ingenierías y Aplicaciones
dc.rights	https://creativecommons.org/licenses/by-nc-sa/4.0/
dc.source	Science, Engineering and Applications; Vol 3 No 1 (2020): Science, Engineering and Applications; 85-112
dc.source	Ciencia, Ingenierías y Aplicaciones; Vol. 3 Núm. 1 (2020): Ciencia, Ingenierías y Aplicaciones; 85-112
dc.source	2636-2171
dc.source	2636-218X
dc.source	10.22206/cyap.2020.v3i1
dc.subject	virus infection
dc.subject	heuristic optimization method
dc.subject	bacteriophage
dc.subject	Genetic Algorithms
dc.subject	Deceptive Functions
dc.subject	infección por virus
dc.subject	método heurístico de optimización
dc.subject	bacteriófago
dc.subject	algoritmos genético
dc.subject	funciones engañosas
dc.title	Validation of Heuristic Optimization Method based on a virus infection system
dc.title	Validación de un método heurístico de optimización basado en un sistema de infección por virus
dc.type	info:eu-repo/semantics/article
dc.type	info:eu-repo/semantics/publishedVersion
dc.type	Nota

Este ítem pertenece a la siguiente institución

Instituto Tecnológico de Santo Domingo (República Dominicana)