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MORE ABOUT THIS BOOK
Main description:
The book describes the possibility of making a probabilistic prognosis, which uses the mean n-day logarithm of case numbers in the past to determine an exponent for a probability density for a prognosis, as well as the particle emission concept, which is derived from contact and distribution rates that increase the exponent of the probable development to the extent that a group of people can be formed.
Contents:
Trends in the spread of infections, distribution and contact rates.- Addition of the 4th parameter kurtosis to the density Eqb.- Prediction using the density function and continuous adjustment of the parameters.- Basics for exponential propagation, the logarithm of historical data.- Developments in the USA.- Incidence under probabilistic aspects.- On the percolation theory COVID.- Examples of percolation effects.
PRODUCT DETAILS
Publisher: Springer (Springer Nature Switzerland AG)
Publication date: May, 2021
Pages: 70
Weight: 454g
Availability: Available
Subcategories: Microbiology, Public Health