Tuberculosis models with fast and slow dynamics: The role of close and casual contacts

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• Epidemiological models with age structure, proportionate mixing, and cross-immunity
• The spread and persistence of infectious diseases in structured populations
• Heterogeneity in disease-transmission modeling
• Geometric singular perturbation theory for ordinary differential equations
• Modeling and analyzing HIV transmission: The effect of contact patterns
• Global stability of an age-structure model for TB and its applications to optimal vaccination strategies
• To treat or not to treat: The case of tuberculosis
• Asymptotic stability in singular perturbation problems. II: Problems having matched asymptotic expansion solutions
• Competition and species packing in patchy environments.
• A core group model for disease transmission
• Mathematical modelling of tuberculosis epidemics
• The Quasi-Steady-State Assumption: A Case Study in Perturbation
• On the role of variable latent periods in mathematical models for tuberculosis
• A model for tuberculosis with exogenous reinfection
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