Présentation du laboratoire

Le LaMIA est composé de deux (02) Unités de Recherche (UR):
-UR en Modélisation Mathématiques et Optimisation (UR-M2-O);
-UR en Équations aux Dérivées Partielles et Analyse Numérique (UR-EDPAN).
 

Responsable: Pr. TRAORÉ Sado

Contact: traore.sado@yahoo.fr

Publications

Moussa BARRO, Aboudramane GUIRO and Dramane OUEDRAOGO: Optimal control of a SIR epidemic model with general incidence function and a time delays, CUBO Vol.20, 02, (53–66). June 2018 

Moussa BARRO, Sado TRAORE, Level sets regularization with application to optimization problems, CUBO Vol.22, 01, (137-154). Avril 2020 

Wendkouni Ouedraogo, Hamidou  Ouedraogo, Boureima Sangaré. A Reaction Diffusion Model to Describe the Toxin Effect on the Fish-Plankton Population. Journal of Mathematics 2018, (2018), Article ID 2037093, 15 pages.

Ousmane Koutou, Bakary Traoré, Boureima Sangaré. Mathematical modeling of malaria transmission global dynamics: taking into account the immature stages of the vectors. Advance in Difference Equation, 2018 (220) (2018) 1-34.

Bakary Traoré, Boureima Sangaré  Sado Traoré. A mathematical model of malaria transmission in a periodic environment. Journal of Biological Dynamics, 12 (1) (2018) 400-432.

Ousmane Koutou, Bakary Traoré, Boureima Sangaré.Mathematical model of malaria transmission dynamics with distributed delay and a wide class of nonlinear incidence rates.Cogent Mathematics & statistics(2018), 5: 1564531.

Bakary Traoré, Boureima Sangaré  Sado Traoré.Mathematical model of mosquito populations dynamics with logistic growth in a periodic environment. Annals of the University of Craiova, Mathematics and Computer Science Series, Volume 45(1), 2018, Pages 86-102

Hamidou Ouedraogo, Wendkouni Ouedraogo, Boureima Sangaré, A Self-Diffusion Mathematical Model to Describe the Toxin Effect on the Zooplankton-Phytoplankton Dynamics. Nonlinear Dynamics and Systems Theory, 18 (4) (2018) 392-408

Bakary Traoré, Ousmane Koutou, Boureima Sangaré.Global dynamics of a seasonal mathematical model of schistosomiasis transmission with general incidence function. Journal of Biological Systems, Vol. 26, No. 4 (2018)

Hamidou Ouedraogo, Wendkouni  Ouedraogo, Boureima Sangaré, Bifurcation and stability Analysis in Complex Cross-Diffusion Mathematical Model of Phytoplankton-Fish Dynamics.  Journal of partial differential equations, Vol. 32, No. 3 (2019), pp. 1-22

Bakary Traoré, Ousmane Koutou, and Boureima Sangaré. Global dynamics of a seasonnal mathematical model of schistosomiasis transmission with general incidence function. Journal of Biological Systems, 27(1) : 1-31, 2019.

Hamidou Ouedraogo, Wendkouni Ouedraogo, and Boureima Sangaré. A mathematical model with a trophic chain predation based on the ODEs to describe fish and plankton dynamics. Annals of the University of Craiova, Mathematics and Computer Science Series, Volume 46(1), 2019, Pages 164-177

Hamidou Ouedraogo, Wendkouni  Ouedraogo, Boureima Sangaré. Mathematical analysis of toxin-phytoplankton-fish model with self-diffusion and cross-diffusion. Biomath 8 (2019), 1910037,  http://dx.doi.org/10.11145/j.biomath.2019.10.037

Bakary Traoré, Ousmane Koutou, and Boureima Sangaré. A global mathematical model of malaria transmission dynamics with structured mosquito population and temperature variations. Nonlinear Analysis: Real World Applications 53 (2020).

Bakary Traoré, Ousmane Koutou, and Boureima Sangaré. A dynamics of malaria transmission with general incidence in a periodic environment. Letters in Biomathematics, Vol 7, No 1, pp 37-54, (2020)

Assane Savadogo, Hamidou Ouedraogo, Boureima Sangaré. Mathematical analysis of a fish-plankton eco-epidemiological system. Nonlinear studies, Vol. 27, No. 1, pp. 237-261, 2020.

Innovations et brevets