<p>Example time series of vaccination (blue) and incidence (green) over a season. When a vaccine becomes available in early October, uptake increases in anticipation of the upcoming influenza season. Confidence intervals represent two standard deviations of outputs for the 100 parameter sets (see Model Calibration section).</p
a<p>All 30 secondary influenza cases from resulting from all household introductions of influenza we...
a b s t r a c t Dynamic transmission models are essential to design and evaluate control strategies ...
<div><p>Seasonal influenza epidemics cause consistent, considerable, widespread loss annually in ter...
<p>Example of a baseline scenario of our model where vaccination becomes available in season 10, cau...
<p>Seasonal age-specific vaccine exposure rates for each scenario in the model, by season (obtained ...
<p>Analysis was limited to countries providing ≥30 viruses for ≥3 yrs. Different colors represent di...
<p>time series (A); the vertical grey dotted line represents the introduction of the JE vaccine into...
<p>(a), (b) Univariate sensitivity analysis for vaccine efficacy, <i>ϵ</i><sub><i>V</i></sub>. Data ...
<p>Dynamic (blue) and static (red) forecasts were considered here assuming the general infectiousnes...
<p>Overall fit was calculated under dynamic (blue) and static (red) forecasts assuming a specific in...
<p>(A). Influenza seasons in Corsica Island. Incidence rate (cases per 100,000 inhabitants) in blue....
Infectious disease data from surveillance systems are typically available as multivariate times seri...
<p>Observed data are presented as the number (black solid lines) and % positive (dashed black line) ...
<p>Seasonal vaccine uptake among laboratory-confirmed cases included in the seasonal vaccine effecti...
Influenza is an infectious seasonal disease against which yearly vaccination is recommended, especia...
a<p>All 30 secondary influenza cases from resulting from all household introductions of influenza we...
a b s t r a c t Dynamic transmission models are essential to design and evaluate control strategies ...
<div><p>Seasonal influenza epidemics cause consistent, considerable, widespread loss annually in ter...
<p>Example of a baseline scenario of our model where vaccination becomes available in season 10, cau...
<p>Seasonal age-specific vaccine exposure rates for each scenario in the model, by season (obtained ...
<p>Analysis was limited to countries providing ≥30 viruses for ≥3 yrs. Different colors represent di...
<p>time series (A); the vertical grey dotted line represents the introduction of the JE vaccine into...
<p>(a), (b) Univariate sensitivity analysis for vaccine efficacy, <i>ϵ</i><sub><i>V</i></sub>. Data ...
<p>Dynamic (blue) and static (red) forecasts were considered here assuming the general infectiousnes...
<p>Overall fit was calculated under dynamic (blue) and static (red) forecasts assuming a specific in...
<p>(A). Influenza seasons in Corsica Island. Incidence rate (cases per 100,000 inhabitants) in blue....
Infectious disease data from surveillance systems are typically available as multivariate times seri...
<p>Observed data are presented as the number (black solid lines) and % positive (dashed black line) ...
<p>Seasonal vaccine uptake among laboratory-confirmed cases included in the seasonal vaccine effecti...
Influenza is an infectious seasonal disease against which yearly vaccination is recommended, especia...
a<p>All 30 secondary influenza cases from resulting from all household introductions of influenza we...
a b s t r a c t Dynamic transmission models are essential to design and evaluate control strategies ...
<div><p>Seasonal influenza epidemics cause consistent, considerable, widespread loss annually in ter...
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