External forcing of ecological and epidemiological systems: a resonance approach

Threshold dynamics for periodically forced ecological systems: the control of population invasion and exclusion ⋮ A mathematical model for the seasonal transmission of schistosomiasis in the lake and marshland regions of China ⋮ The effect of seasonal host birth rates on disease persistence ⋮ Parametric dependence in model epidemics. I: Contact-related parameters ⋮ The evolution of host defence to parasitism in fluctuating environments. ⋮ Dynamics of infectious diseases and pulse vaccination: Teasing apart the embedded resonance effects ⋮ Chaos in a seasonally perturbed SIR model: avian influenza in a seabird colony as a paradigm ⋮ Disrupting seasonality to control disease outbreaks: the case of koi herpes virus ⋮ The effect of seasonal host birth rates on population dynamics: the importance of resonance ⋮ Asymptotic analysis of periodic solutions of the seasonal SIR model ⋮ The role of immunity and seasonality in cholera epidemics ⋮ Attack rates of seasonal epidemics ⋮ Seasonal forcing and multi-year cycles in interacting populations: lessons from a predator-prey model ⋮ Modeling and analysis of the transmission dynamics of tuberculosis without and with seasonality ⋮ The influence of immune cross-reaction on phase structure in resonant solutions of a multi-strain seasonal SIR model ⋮ The effects of seasonal forcing on invertebrate-disease interactions with immune priming ⋮ Host-parasite interactions between the local and the mean-field: how and when does spatial population structure matter? ⋮ Environmental forcing, invasion and control of ecological and epidemiological systems ⋮ The schedule effect: can recurrent peak infections be reduced without vaccines, quarantines or school closings? ⋮ The dynamical consequences of seasonal forcing, immune boosting and demographic change in a model of disease transmission ⋮ Epidemiological effects of seasonal oscillations in birth rates ⋮ Discrete time subharmonic modelling and analysis ⋮ Melnikov analysis of chaos in a simple SIR model with periodically or stochastically modulated nonlinear incidence rate ⋮ A periodic SEIRS epidemic model with a time-dependent latent period ⋮ Existence of periodic solutions for the periodically forced SIR model ⋮ Parametric dependence in model epidemics. II: Non-contact rate-related parameters ⋮ Phase control of resonant systems: interference, chaos and high periodicity ⋮ The impact of environmental fluctuations on structured discrete time population models: Resonance, synchrony and threshold behaviour ⋮ Effects of seasonal variation patterns on recurrent outbreaks in epidemic models ⋮ Regular biennial cycles in epidemics caused by parametric resonance ⋮ A tuberculosis model with seasonality ⋮ Seasonality in epidemic models: a literature review ⋮ Resonance of the epidemic threshold in a periodic environment ⋮ The effect of seasonal strength and abruptness on predator-prey dynamics ⋮ Inversion of a SIR-based model: a critical analysis about the application to COVID-19 epidemic ⋮ High order sliding-mode dynamic control for chaotic intracellular calcium oscillations ⋮ Optimal control of a rabies epidemic model with a birth pulse ⋮ Seasonal forcing in a host-macroparasite system ⋮ Volterra-series-based equivalent nonlinear system method for subharmonic vibration systems

• Mathematica

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• Infinite subharmonic bifurcation in an SEIR epidemic model
• Multiple stable recurrent outbreaks and predictability in seasonally forced nonlinear epidemic models
• Bifurcation analysis of periodic SEIR and SIR epidemic models
• Practical bifurcation and stability analysis: from equilibrium to chaos.
• Stage-specific quiescence as a mechanism for synchronizing life cycles to seasons
• The effect of cross-immunity and seasonal forcing in a multi-strain epidemic model
• Dynamical complexity in age-structured models of the transmission of the measles virus: Epidemiological implications at high levels of vaccine uptake
• The dynamics of two diffusively coupled predator--prey populations.
• Exciting chaos with noise: unexpected dynamics in epidemic outbreaks
• Time Series Modelling of Childhood Diseases: A Dynamical Systems Approach
• Crises, sudden changes in chaotic attractors, and transient chaos
• Nonlinear dynamics of chaotic and stochastic systems. Tutorial and modern developments
• Seasonally forced disease dynamics explored as switching between attractors