Use of temporal contact graphs to understand the evolution of COVID-19 through contact tracing data

Abstract: Digital contact tracing has been recently advocated by China and many countries as part of digital prevention measures on COVID-19. Controversies have been raised about their effectiveness in practice as it remains open how they can be fully utilized to control COVID-19. In this article, we show that an abundance of information can be extracted from digital contact tracing for COVID-19 prevention and control. Specifically, we construct a temporal contact graph that quantifies the daily contacts between infecti… Show more

“…Many mathematical and computational models have been adapted to describe the epidemiological behavior of COVID-19 spread, including predicting the dynamics to assist efforts to counter rapid dissemination of the disease (3)(4)(5). Different modeling strategies to describe the pandemic include stochastic/probabilistic (3,(6)(7)(8)(9), and chaotic (10,11), with many models using ODEs (Ordinary Differential Equations) adapting the compartmental SIR (Susceptible, Infected, and Recovered) model (5,(12)(13)(14)(15)(16)(17). Many studies of COVID dynamics have been at national level, but spatially disaggregated approaches (e.g.…”

Editorial: Epidemiological considerations in COVID-19 forecasting

“…Many mathematical and computational models have been adapted to describe the epidemiological behavior of COVID-19 spread, including predicting the dynamics to assist efforts to counter rapid dissemination of the disease (3)(4)(5). Different modeling strategies to describe the pandemic include stochastic/probabilistic (3,(6)(7)(8)(9), and chaotic (10,11), with many models using ODEs (Ordinary Differential Equations) adapting the compartmental SIR (Susceptible, Infected, and Recovered) model (5,(12)(13)(14)(15)(16)(17). Many studies of COVID dynamics have been at national level, but spatially disaggregated approaches (e.g.…”

Editorial: Epidemiological considerations in COVID-19 forecasting

Physics-Informed Spatio-Temporal Model for Human Mobility Prediction

LEAM: A Large-scale Events Aware Module for Multi-step Intercity Flow Prediction