Author: Smeets, Bart; Watte, Rodrigo; Ramon, Herman
Title: Scaling analysis of COVID-19 spreading based on Belgian hospitalization data Cord-id: nc5rtwtd Document date: 2020_3_30
ID: nc5rtwtd
Snippet: We analyze the temporal evolution of accumulated hospitalization cases due to COVID-19 in Belgium. The increase of hospitalization cases is consistent with an initial exponential phase, and a subsequent power law growth. For the latter, we estimate a power law exponent of ≈ 2.2, which is consistent with growth kinetics of COVID-19 in China and indicative of the underlying small world network structure of the epidemic. Finally, we fit an SIR-X model to the experimental data and estimate the eff
Document: We analyze the temporal evolution of accumulated hospitalization cases due to COVID-19 in Belgium. The increase of hospitalization cases is consistent with an initial exponential phase, and a subsequent power law growth. For the latter, we estimate a power law exponent of ≈ 2.2, which is consistent with growth kinetics of COVID-19 in China and indicative of the underlying small world network structure of the epidemic. Finally, we fit an SIR-X model to the experimental data and estimate the effect of containment policies in comparison to their effect in China. This model suggests that the base reproduction rate has been significantly reduced, but that the number of susceptible individuals that is isolated from infection is very small. Based on the SIR-X model fit, we analyze the COVID-19 mortality and the number of patients requiring ICU treatment over time.
Search related documents:
Co phrase search for related documents- accurate prediction and logarithmic scale: 1, 2
- logarithmic scale and logistic growth curve: 1
Co phrase search for related documents, hyperlinks ordered by date