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Daniel Olmos Liceaga
Daniel Olmos Liceaga
Universidad de Sonora
Verified email at unison.mx
Title
Cited by
Cited by
Year
A pseudospectral method of solution of Fisher's equation
D Olmos, BD Shizgal
Journal of Computational and Applied Mathematics 193 (1), 219-242, 2006
1372006
COVID-19 optimal vaccination policies: A modeling study on efficacy, natural and vaccine-induced immunity responses
MA Acuña-Zegarra, S Díaz-Infante, D Baca-Carrasco, D Olmos-Liceaga
Mathematical Biosciences 337, 108614, 2021
1102021
Pseudospectral method of solution of the Fitzhugh–Nagumo equation
D Olmos, BD Shizgal
Mathematics and Computers in Simulation 79 (7), 2258-2278, 2009
692009
A mathematical model for human and animal leptospirosis
D Baca-Carrasco, D Olmos, I Barradas
Journal of Biological Systems 23 (supp01), S55-S65, 2015
212015
Reflection and attachment of spirals at obstacles for the Fitzhugh-Nagumo and Beeler-Reuter models
D Olmos
Physical Review E 81 (4), 041924, 2010
212010
The role of animal grazing in the spread of Chagas disease
MA Acuña-Zegarra, D Olmos-Liceaga, JX Velasco-Hernández
Journal of Theoretical Biology 457, 19-28, 2018
182018
Annihilation and reflection of spiral waves at a boundary for the Beeler-Reuter model
D Olmos, BD Shizgal
Physical Review E 77 (3), 031918, 2008
162008
Lockdown, relaxation, and acme period in COVID-19: A study of disease dynamics in Hermosillo, Sonora, Mexico
MR Tocto-Erazo, JA Espíndola-Zepeda, JA Montoya-Laos, ...
PloS one 15 (12), e0242957, 2020
142020
Effect of daily periodic human movement on dengue dynamics: The case of the 2010 outbreak in Hermosillo, Mexico
MR Tocto-Erazo, D Olmos-Liceaga, JA Montoya
Applied Mathematical Modelling 97, 559-567, 2021
72021
Effect of daily human movement on some characteristics of dengue dynamics
MR Tocto-Erazo, D Olmos-Liceaga, JA Montoya-Laos
Mathematical Biosciences 332, 108531, 2021
72021
Spiral waves, obstacles and cardiac arrhythmias
D Olmos-Liceaga
Cardiac Arrhythmias-New Considerations, 357-376, 2012
72012
Chebyshev multidomain pseudospectral method to solve cardiac wave equations with rotational anisotropy
J Rodríguez-Padilla, D Olmos-Liceaga
International Journal of Modeling, Simulation, and Scientific Computing 9 …, 2018
52018
On the Calculation of Using Submodels
D Olmos, I Barradas, D Baca-Carrasco
Differential Equations and Dynamical Systems 25 (3), 481-497, 2017
52017
On the generation of spiral and scroll waves by periodic stimulation of excitable media in the presence of obstacles of minimum size
D Olmos-Liceaga, H Ocejo-Monge
Chaos, Solitons & Fractals 99, 162-170, 2017
52017
An implicit pseudospectral scheme to solve propagating fronts in reaction‐diffusion equations
D Olmos‐Liceaga, I Segundo‐Caballero
Numerical Methods for Partial Differential Equations 32 (1), 86-105, 2016
42016
Diffusion as a strategy for survival in an invasion predator–prey model
D Olmos‐Liceaga, G Villavicencio‐Pulido, MA Acuña‐Zegarra
Natural Resource Modeling 30 (3), e12135, 2017
32017
Breaking of Spiral Waves due to Obstacles
D Olmos-Liceaga, D Leal Soto, R Ávila Pozos
Journal of Advances in Mathematics and Computer Science 24 (6), 1-14, 2017
22017
Pseudospectral solutions of reaction-diffusion equations that model excitable media: convergence of solutions and applications
DO Liceaga
University of British Columbia, 2007
22007
Ex Vivo Experiments Shed Light on the Innate Immune Response from Influenza Virus
D Olmos-Liceaga, SF Nunes, RA Saenz
Bulletin of Mathematical Biology 85 (115), 1-25, 2023
12023
Numerical solutions of equations of cardiac wave propagation based on Chebyshev multidomain pseudospectral methods
J Rodríguez-Padilla, D Olmos-Liceaga
Mathematics and Computers in Simulation 151, 29-53, 2018
12018
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