Add to ORKGEarly warning indicators based on critical slowing down have been suggested as a model-independent and low-cost tool to anticipate the (re)emergence of infectious diseases. We studied whether such indicators could reliably have anticipated the second COVID-19 wave in European countries. Contrary to theoretical predictions, we found that characteristic early warning indicators generally decreased rather than increased prior to the second wave. A model explains this unexpected finding as a result of transient dynamics and the multiple timescales of relaxation during a non-stationary epidemic. Particularly, if an epidemic that seems initially contained after a first wave does not fully settle to its new quasi-equilibrium prior to changing circ...
During the course of an epidemic, one of the most challenging tasks for authorities is to decide wha...
Epidemic spread is characterized by exponentially growing dynamics, which are intrinsically unpredic...
<div><p>Epidemic transitions are an important feature of infectious disease systems. As the transmis...
Early warning indicators based on critical slowing down have been suggested as a model-independent a...
Developing measures for rapid and early detection of disease re-emergence is important to perform sc...
The temporal evolution of second and subsequent waves of epidemics such as Covid-19 is investigated....
Abstract Early warning signals (EWSs) aim to predict changes in complex systems from phenomenologic...
Pandemics, like the 1918 Spanish Influenza and COVID-19, spread through regions of the World in subs...
In spite of medical breakthroughs, the emergence of pathogens continues to pose threats to both huma...
Abstract As the COVID-19 pandemic progressed, research on mathematical modeling became imperative an...
We present a self-synchronizing and robust method for comparing the progression of the Covid-19 epid...
During the endgame of elimination programs, parasite populations may exhibit dynamical phenomena not...
Containment measures implemented by some countries to suppress the spread of COVID-19 have resulted ...
Epidemic transitions are an important feature of infectious disease systems. As the transmissibility...
During the course of an epidemic, one of the most challenging tasks for authorities is to decide wha...
Epidemic spread is characterized by exponentially growing dynamics, which are intrinsically unpredic...
<div><p>Epidemic transitions are an important feature of infectious disease systems. As the transmis...
Early warning indicators based on critical slowing down have been suggested as a model-independent a...
Developing measures for rapid and early detection of disease re-emergence is important to perform sc...
The temporal evolution of second and subsequent waves of epidemics such as Covid-19 is investigated....
Abstract Early warning signals (EWSs) aim to predict changes in complex systems from phenomenologic...
Pandemics, like the 1918 Spanish Influenza and COVID-19, spread through regions of the World in subs...
In spite of medical breakthroughs, the emergence of pathogens continues to pose threats to both huma...
Abstract As the COVID-19 pandemic progressed, research on mathematical modeling became imperative an...
We present a self-synchronizing and robust method for comparing the progression of the Covid-19 epid...
During the endgame of elimination programs, parasite populations may exhibit dynamical phenomena not...
Containment measures implemented by some countries to suppress the spread of COVID-19 have resulted ...
Epidemic transitions are an important feature of infectious disease systems. As the transmissibility...
During the course of an epidemic, one of the most challenging tasks for authorities is to decide wha...
Epidemic spread is characterized by exponentially growing dynamics, which are intrinsically unpredic...
<div><p>Epidemic transitions are an important feature of infectious disease systems. As the transmis...