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Applied Mathematics

Applied Mathematics

Applied Mathematics

ISSN Print: 2152-7385
ISSN Online: 2152-7393
www.scirp.org/journal/am
E-mail: am@scirp.org
"Mathematical Study of Dengue Disease Transmission in Multi-Patch Environment"
written by Ganga Ram Phaijoo, Dil Bahadur Gurung,
published by Applied Mathematics, Vol.7 No.14, 2016
has been cited by the following article(s):
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  • CrossRef
[1] The effect mitigation measures for COVID-19 by a fractional-order SEIHRDP model with individuals migration
ISA transactions, 2022
[2] FLAT LIKELIHOODS: SIR-POISSON MODEL CASE
Preciado… - Revista de la …, 2022
[3] Multi-patch epidemic models with partial mobility, residency, and demography
Ramirez, 2022
[4] Fuzzy Model of Transmission Dynamics of COVID-19 in Nepal
Mathematical Modeling, Computational …, 2021
[5] An almost periodic Dengue transmission model with age structure and time-delayed input of vector in a patchy environment.
Discrete & Continuous Dynamical …, 2021
[6] A Mathematical model for the dynamics of dengue virus disease transmission in Mandera County-Kenya
2021
[7] Essential features preserving dynamics of stochastic dengue model
2021
[8] Effect of daily periodic human movement on dengue dynamics: The case of the 2010 outbreak in Hermosillo, Mexico
2021
[9] Global Stability of COVID-19 Model: A Case Study of Nepal
2020
[10] Modelling the Impact of Increasing Global Temperatures due to Climate Change on the Spread of Vector-Borne Disease: A Study of Dengue in Veracruz, Mexico
2020
[11] Impact of Seasonal Conditions on Vector-Borne Epidemiological Dynamics
2020
[12] Global stability and optimal control of a two-patch tuberculosis epidemic model using fractional-order derivatives
2020
[13] Effect of daily human movement on some characteristics of dengue dynamics
2020
[14] Sensitivity Analysis of COVID-19 Transmission Dynamics
2020
[15] Stability analysis of a fractional order model for the HIV/AIDS epidemic in a patchy environment
Journal of Computational and Applied Mathematics, 2019
[16] Biological Model of Dengue Spread with Non-Markovian Properties
2018
[17] Modeling Impact of Temperature and Human Movement on the Persistence of Dengue Disease
Computational and Mathematical Methods in Medicine, 2017
[18] Mathematical model of dengue disease transmission dynamics with control measures
2017
[19] An almost periodic Dengue transmission model with age structure and time-delayed input of vector in a patchy environment
2017
[20] Research Article Modeling Impact of Temperature and Human Movement on the Persistence of Dengue Disease
2017
[21] ASSESSING THE ROLE OF MOVEMENT OF HUMANS ON TRANSMISSION OF DENGUE DISEASE BETWEEN TWO CITIES
[22] Approaches to the exploration of scenarios in infectious disease dynamics: Dengue and COVID-19
[23] FUZZY MODEL OF TRANSMISSION DYNAMICS OF COVID-19
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