After the emergence of the H1N1 influenza in 2009, some countries responded with travel-
related controls during the early stage of the outbreak in an attempt to contain or slow down …

Background Mobility restrictions—trade and travel bans, border closures and, in extreme
cases, area quarantines or cordons sanitaires—are among the most widely used measures …

Among the realistic ingredients to be considered in the computational modeling of infectious
diseases, human mobility represents a crucial challenge both on the theoretical side and in …

Abstract Background Confirmed H1N1 cases during late spring and summer 2009 in various
countries showed a substantial age shift between importations and local transmission cases …

RESEARCH HIGHLIGHTS:▶ Integration of empirical mobility networks in a computational
epidemic model.▶ Discrete stochastic epidemic model at the worldwide scale.▶ …

Human mobility is a key component of large-scale spatial-transmission models of infectious
diseases. Correctly modeling and quantifying human mobility is critical for improving …

The increasing agglomeration of people in dense urban areas coupled with the existence of
efficient modes of transportation connecting such centers, make cities particularly vulnerable …

Host mobility plays a fundamental role in the spatial spread of infectious diseases. Previous
theoretical works based on the integration of network theory into the metapopulation …

Human mobility networks are crucial for a better understanding and controlling the spread of
epidemics. Here, we study the impact of human mobility networks on the COVID-19 onset in …

Countries in Europe took different mobility containment measures to curb the spread of
COVID-19. The European Commission asked mobile network operators to share on a …