A CHOLERA METAPOPULATION MODEL INTERLINKING MIGRATION WITH INTERVENTION STRATEGIES — A CASE STUDY OF ZIMBABWE (2008–2009)
From MaRDI portal
Publication:5230439
DOI10.1142/S0218339019500098zbMath1418.92192OpenAlexW2946647518WikidataQ127938816 ScholiaQ127938816MaRDI QIDQ5230439
Tridip Sardar, Abhishek Senapati, Joydev Chattopadhyay
Publication date: 22 August 2019
Published in: Journal of Biological Systems (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1142/s0218339019500098
Epidemiology (92D30) Applications of optimal control and differential games (49N90) Medical epidemiology (92C60)
Related Items (1)
Optimal test-kit-based intervention strategy of epidemic spreading in heterogeneous complex networks
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- A metapopulation model for cholera transmission dynamics between communities linked by migration
- Patch invasion in a spatial epidemic model
- Global stability of an age-structured cholera model
- Analyzing transmission dynamics of cholera with public health interventions
- Global stability for cholera epidemic models
- Modeling optimal intervention strategies for cholera
- Global stability of a delayed SEIRS epidemic model with saturation incidence rate
- A metapopulation model for malaria with transmission-blocking partial immunity in hosts
- Epidemiological implications of mobility between a large urban centre and smaller satellite cities
- Influence of human behavior on cholera dynamics
- Mathematical epidemiology.
- Threshold of disease transmission in a patch environment
- The metapopulation dynamics of an infectious disease: Tuberculosis in possums.
- Spatiotemporal dynamics of epidemics: Synchrony in metapopulation models.
- The effects of human movement on the persistence of vector-borne diseases
- An age-structured model for cholera control with vaccination
- A methodology for performing global uncertainty and sensitivity analysis in systems biology
- An epidemic model in a patchy environment
- Transmission dynamics of cholera: mathematical modeling and control strategies
- Global stability of a two-patch cholera model with fast and slow transmissions
- Disease invasion on community networks with environmental pathogen movement
- Global analysis of an epidemic model with nonmonotone incidence rate
- Impact of travel between patches for spatial spread of disease
- A cholera model in a patchy environment with water and human movement
- A model for disease transmission in a patchy environment
- The effect of global travel on the spread of SARS
- Human mobility and time spent at destination: impact on spatial epidemic spreading
- Heterogeneity in multiple transmission pathways: modelling the spread of cholera and other waterborne disease in networks with a common water source
- Modelling and control of cholera on networks with a common water source
- A new approach for designing disease intervention strategies in metapopulation models
- The impact of spatial arrangements on epidemic disease dynamics and intervention strategies
- A multi-city epidemic model
- Elements of Mathematical Ecology
- Asymptotic Profiles of the Steady States for an SIS Epidemic Patch Model
- An adaptive Metropolis algorithm
This page was built for publication: A CHOLERA METAPOPULATION MODEL INTERLINKING MIGRATION WITH INTERVENTION STRATEGIES — A CASE STUDY OF ZIMBABWE (2008–2009)
