Lista de articulos
- Assessing the effect of migration and immigration rates on the transmission dynamics of infectious diseases. Gómez, M. C., Mondragón, E. I., & Bernate, C. A. R. (2023). Journal of Applied Mathematics and Computing, 69(5), 3819-3834.
- Mathematical Model for the Dynamics of Tuberculosis Considering Low-Risk Latents. Arias-Castro, Heliana, Girón-Carabalí, Tatiana, & Martínez-Romero, Héctor J. (2023). . Revista científica, (47), 138-154.
- Monotonicity properties arising in a simple model of Wolbachia invasion for wild mosquito populations. Vicencio, D., Vasilieva, O., and P. Gajardo (2023). Mathematical Biosciences and Engineering, Vol. 20, No. 1, pp. 1148-1175, DOI: 10.3934/mbe.2023053
- Sex-structured model of Wolbachia invasion and design of sex-biased release strategies in Aedes spp mosquitoes populations. Bliman, P.-A., Dumont, Y., Escobar-Lasso, O. E., Martinez-Romero, H. J., and O. Vasilieva (2023). Applied Mathematical Modelling, Vol. 119, pp. 391-412, DOI: 10.1016/j.apm.2023.02.023
- Optimal Control of a Two-Patch Dengue Epidemic under Limited Resources. Barrios-Rivera, E., Vasilieva, O., and M. Svinin (2023). Mathematics, Vol. 11, Article ID: 3921, DOI: 10.3390/math11183921
- Pheromone trapping for control of Asian citrus psyllid, Diaphorina citri Kuwayama (Hemiptera: Liviidae). Daiver Cardona-Salgado, Yves Dumont, Olga Vasilieva (2023). ArXiV, https://arxiv.org/abs/2310.12608
- A synthesized model of tuberculosis transmission featuring treatment abandonment. Barrios-Rivera, E., Bastidas-Santacruz, H. E., Ramirez-Bernate, C. A., and O. Vasilieva (2022). Mathematical Biosciences and Engineering, Vol. 19, No. 11, pp. 10882-10914; DOI: 10.3934/mbe.2022509
- Análisis matemático de un modelo metapoblacional para la dinámica del dengue. Llanos, Aarom., & Arias, Heliana. (2022). . Revista de la Academia Colombiana de Ciencias Exactas, Físicas y Naturales, 46(179), 550-564.
- A metapopulation approach to identify targets for Wolbachia-based dengue control. Reyna-Lara, Adriana, Soriano-Paños, David, Arias-Castro, Heliana, Martínez, Héctor & Gómez-Gardeñes, Jesús. (2022). Chaos: An Interdisciplinary Journal of Nonlinear Science, 32(4).
- Optimal release programs for dengue prevention using Aedes aegypti mosquitoes transinfected with wMel or wMelPop Wolbachia strains. Daiver Cardona Salagado, Doris Elena Campo Duarte, Lilian Sofia Sepulveda Salcedo, Mikhail Svinin and Olga Vasilieva. Mathematical Biosciences and Engineering, 18(3), Pages 2952-2990. 2021.
- Optimal control of dengue epidemic outbreaks under limited resources. Lilian Sofia Sepulveda Salcedo, Mikhail Svinin and Olga Vasilieva. Studies in Applied Mathematics, 144(2), Pages 185-212. 2020.
- Wolbachia-based biocontrol for dengue reduction using dynamic optimization approach. Daiver Cardona-Salgado, Doris E Campo-Duarte, Lilian S Sepulveda-Salcedo, Olga Vasilieva. Applied Mathematical Modelling, Volume 82, Pages 125-149, 2020.
- Biological and Chemical Control of Mosquito Population by Optimal Control Approach. Juddy Heliana Arias-Castro, Hector Jairo Martinez-Romero, Olga Vasilieva. Games, 11(4), 2020.
- Catch‐to‐stock dependence: The case of small pelagic fishery with bounded harvesting effort. E Cruz‐Rivera, H Ramírez C, O Vasilieva. Natural Resource Modeling 32 (1), e12193. 2019.
- Optimal strategies for dengue prevention and control during daily commuting between two residential areas. D Lasluisa, E Barrios, O Vasilieva. Processes 7 (4), 197. 2019.
- Implementation of control strategies for sterile insect techniques. PA Bliman, D Cardona-Salgado, Y Dumont, O Vasilieva. Mathematical biosciences 314, 43-60. 2019.
- Establishing wMelPop Wolbachia Infection among Wild Aedes aegypti Females by Optimal Control Approach. Doris E. Campo-Duarte, Daiver Cardona-Salgado Olga Vasilieva. Applied Mathematics & Information Sciences, Vol.11 Issue.4 p.1011 – 1027, 2018.
- Optimal control methods for establishing Wolbachia infection among wild Aedes aegypti populations. Campo-Duarte, D., Vasilieva, O., Cardona-Salgado, D. and M. Svinin. Journal Of Mathematical Biology, Vol.76 Issue 1 p.1-44, 2018.
- Sustainable thresholds for cooperative epidemiological models. Barrios, E., Gajardo, P. and Vasilieva O. Mathematical Biociences, Vol. 302, p. 9-18, 2018.
- Assessing the effects of daily commuting in two-patch dengue dynamics: a case study of Cali, Colombia. Barrios, E., Lee, S., and Vasilieva O. Journal of Theoretical Biology, Vol.453, p. 114-39, 2018.
- Establishing wMelPop Wolbachia Infection among Wild Aedes aegypti Females by Optimal Control Approach. Doris E. Campo-Duarte, Daiver Cardona-Salgado Olga Vasilieva. Applied Mathematics & Information Sciences, Vol.11 Issue.4 p.1011 – 1027, 2018.
- Optimal control methods for establishing Wolbachia infection among wild Aedes aegypti populations. Campo-Duarte, D., Vasilieva, O., Cardona-Salgado, D. and M. Svinin. Journal Of Mathematical Biology, Vol.76 Issue 1 p.1-44, 2018.2017
- Optimal control for enhancement of wolbachia frequency among aedes aegypti females. Campo-DuarteD. E., Vasilieva O. and Cardona-Salgado D. International Journal of Pure and Applied Mathematics, 2017, Volume 112, No. 2, pp. 219-238.
- Optimal control approach to dengue reduction and prevention and Cali, Colombia. Sepúlveda-Salcedo L. S, Vasilieva O. Mathematical Methods in the Applied Sciences, 2016, Vol 39, Issue 14.
- Viable control of an epidemiological model. De Lara, M. and Sepúlveda-Salcedo, L.S. Mathematical Biosciences, October 2016, Vol 280, pp. 24–37.
- La etnia afroamericana, paradójico factor protector contra Dengue. Rojas, J.H., Alzate, A., Martínez, H.J. y Concha, A. Revista Colombia Médica, 2016, Vol 47, No. 3.
- Ross Macdonald: un modelo para la dinámica del dengue en Cali, Colombia. Sepúlveda-Salcedo, L. S., Vasilieva, O., Martínez-Romero, H. J., and J. H. Arias-Castro, Revista de Salud Pública, 2015, Vol. 17, No. 5, pp. 749-761.
- Predator-prey model for analysis of Aedes aegypti population dynamics in Cali, Colombia.Arias, J. H., Martinez, H. J., Sepulveda-Salcedo, L. S., and O. Vasilieva. International Journal of Pure and Applied Mathematics, Vol. 105, No. 4, pp. 561-598.
- A control theory approach aimed at sustainable conservation of single species under human intervention. Cruz-Rivera, E. y O. Vasilieva. International Journal of Pure and Applied Mathematics, 2015, Vol. 102, No. 4, pp. 653-669.
- From harvesting to non-harvesting utility: an optimal control approach to species conservation. Vaslieva, O. Natural Resource Modeling, 2015, Vol. 28, No. 2, pp. 133-151.
- Optimal policies aimed at stabilization of populations with logistic growth under human intervention. Cruz-Rivera, E. y O. Vasilieva. Theoretical Population Biology, 2013, Vol. 83, pp. 123-135.
- Optimal short-term policies for protection of single biological species from local extinction. Cruz-Rivera, E. Vasilieva, O. y M. Svinin. Ecological Modelling, Vol. 263, pp. 273-280, 2013.
- Bioeconomic model with Gompertz population growth and species conservation. Campo-Duarte, D. E. y O. Vasilieva. International Journal of Pure and Applied Mathematics, Vol. 72, No. 1, pp. 49-63, 2011.