Estimating White Noise Intensity Regions for Comparable Properties of a Class of Seirs Stochastic and Deterministic Epidemic Models
Divine Wanduku
Part of the Physical Sciences and Mathematics Commons
Works by Divine Wanduku in Physical Sciences and Mathematics
2021
A Stochastic Multi-Population Behavioral Model to Assess the Roles of Education Campaigns, Random Supply of Aids, and Delayed ART Treatment in HIV/AIDS Epidemic
Divine Wanduku
On a SVEIRS Markov chain epidemic model with multiple discrete delay times and sensitivity analysis to determine vaccination effects
Divine Wanduku
The Exponentiated Half Logistic-Topp-Leone-G Power Series Class of Distributions: Model, Properties and Applications
Divine Wanduku
A Stochastic Multi-Population Behavioral Model to Assess the Roles of Education Campaigns, Random Supply of Aids, and Delayed ART Treatment in HIV/AIDS Epidemic
Department of Mathematical Sciences Faculty Presentations
A Mathematical Model for the Spread of Rumors on Complex Social Networks
Department of Mathematical Sciences Faculty Presentations
The statistical estimation of the basic reproduction number and other parameters of SEIR stochastic epidemic models. Case study- influenza
Divine Wanduku
Modeling COVID-19 with Discrete-Time Markov Chains
Department of Mathematical Sciences Faculty Presentations
On a SVEIRS Markov chain epidemic model with multiple discrete delay times and sensitivity analysis to determine vaccination effects
Department of Mathematical Sciences Faculty Presentations
Exponentiated Half Logistic-Power Generalized Weibull-G Family of Distributions: Model, Properties and Applications
Divine Wanduku
A New Generalized Log-Logistic Erlang Truncated Exponential Distribution with Applications
Divine Wanduku
Half Logistic Odd Weibull-Topp-Leone-G Family of Distributions: Model, Properties and Applications
Divine Wanduku
A nonlinear multi-population behavioral model to assess the roles of education campaigns, random supply of aids, and delayed ART treatment in HIV/AIDS epidemics
Divine Wanduku
Characterizing the permanence and stationary distribution for a family of malaria stochastic models
Divine Wanduku
On the almost sure convergence of a stochastic process in a class of nonlinear multi-population behavioral models for HIV/AIDS with delayed ART treatment
Divine Wanduku
On the almost sure, and pth moment exponential convergence and stochastic exponential stabilities for nonlinear stochastic epidemic models
Divine Wanduku
Finite- and multi-dimensional state representations and some fundamental asymptotic properties of a family of nonlinear multi-population models for HIV/AIDS with art treatment and distributed delays
Divine Wanduku
The odd Weibull-Topp-Leone-G power series family of distributions: model, properties, and applications
Divine Wanduku
2020
Modeling the stochastic dynamics of Covid-19 pandemic, Part I
Department of Mathematical Sciences Faculty Presentations
The Fundamental Properties of a Family of Stochastic Epidemic Dynamic Models for Vector-Borne Disease
Divine Wanduku
Exploring the Effects of White Noise on the Dynamics of Malaria in a Highly Random Environment
Divine Wanduku
Substance Abuse: A Mathematical Model for the Spread of Malicious Habits for Additive Substances
Divine Wanduku
A Comparative Stochastic and Deterministic Study of the Permanence of Malaria in a Class of Infectious Disease Models
Divine Wanduku
The stationary distribution and stochastic persistence for a class of disease models: Case study- malaria
Divine Wanduku
Threshold Conditions for a Family of Epidemic Dynamic Models for Malaria with Distributed Delays in a Non-Random Environment
Divine Wanduku
Lyapunov Functionals and Stochastic Stability Analyses for Highly Random Nonlinear Functional Epidemic Dynamical Systems with Multiple Distributed Delays
Divine Wanduku
The Exponentiated Generalized Power Series Class of Distributions: Theory, Properties and Applications
Divine Wanduku
Modeling the Stochastic Dynamics of Influenza Epidemics with Vaccination Control, and the Maximum Likelihood Estimation of Model Parameters
Divine Wanduku
The Stochastic Permanence of Disease and the Stationary Behavior for a Class of Nonlinear SEIRS Epidemic Models
Divine Wanduku
The asymptotic properties of a class of vector-borne epidemic dynamic models with emphasis on the intensity of random perturbations
Divine Wanduku
A Generalized Stochastic SEIRS Epidemic Dynamic Model for Vector-borne Diseases with three Distributed Delays and Nonlinear Incidence
Divine Wanduku
Characterizing the permanence and stationary distribution for a family of malaria stochastic models
Divine Wanduku
Vectorborne Diseases: a Generalized Scale Structured Network Stochastic Epidemic Dynamic Model
Divine Wanduku
Modelling the Stochastic Spread of Rumors and Terroristic Ideas on Complex Social Media Networks
Divine Wanduku
A chain-binomial model for influenza with treatment option: exploring the impacts of vaccination on influenza epidemics
Divine Wanduku
2019
A chain-binomial model for Streptococcus pneumonia epidemics
Department of Mathematical Sciences Faculty Presentations
A mathematical model for pneumonia epidemics
Department of Mathematical Sciences Faculty Presentations
A mathematical model for the spread of rumors on social media networks
Department of Mathematical Sciences Faculty Presentations
2018
A Comparative Stochastic and Deterministic Study of the Permanence of Malaria in a Class of Infectious Disease Models
Department of Mathematical Sciences Faculty Presentations
A chain-binomial model for influenza with treatment option: exploring the impacts of vaccination on influenza epidemics
Department of Mathematical Sciences Faculty Presentations
Substance abuse: a mathematical model for the spread of malicious habits for additive substances
Department of Mathematical Sciences Faculty Presentations
The Gamma-Generalized Inverse Weibull Distribution with Applications to Pricing and Lifetime Data
Divine Wanduku
2017
The asymptotic properties of a class of vector-borne epidemic dynamic models with emphasis on the intensity of random perturbations
Department of Mathematical Sciences Faculty Presentations
Global Analysis of a Stochastic Two-Scale Network Human Epidemic Dynamic Model with Varying Immunity Period
Divine Wanduku
2016
Complete Global Analysis of a Two-Scale Network SIRS Epidemic Dynamic Model with Distributed Delay and Random Perturbations
Divine Wanduku
2015
Vectorborne Diseases: a Generalized Scale Structured Network Stochastic Epidemic Dynamic Model
Department of Mathematical Sciences Faculty Presentations
A Vector-born Disease Scale-Structured Network Delay Stochastic Epidemic dynamic model
Divine Wanduku
2014
Complete Global Analysis of two-scale network SIRS epidemic Dynamic Model with distributed delay and random perturbations
Divine Wanduku
A Scale-Structured Network Stochastic Epidemic dynamic model with varying Incubation Period
Divine Wanduku
2013
Global Analysis of a Stochastic Two-scale Network Human Epidemic Dynamic Model With Varying Immunity Period
Divine Wanduku
2012
Global Properties of a Two-scale Network Stochastic Delayed Human Epidemic Dynamic Model
Divine Wanduku
Global Properties of a Two-Scale Network Stochastic Delayed Human Epidemic Dynamic Model
Divine Wanduku
Global Analysis of a Stochastic Two-Scale Network Human Epidemic Dynamic Model with Varying Immunity Period
Divine Wanduku
Stability of stochastic two-scale network delayed SIR epidemic dynamic model with temporary immunity period
Divine Wanduku
2011
Fundamental Properties of a Two-Scale Network Stochastic Human Epidemic Dynamic Model
Divine Wanduku
2010
Presentation given at Special Session on “Stochastic Analysis and Applications” The 7th International Conference on Differential Equations and Dynamical Systems
Divine Wanduku
