Author: Oscar Patterson-Lomba
Title: Optimal timing for social distancing during an epidemic Document date: 2020_4_1
ID: cm91jxde_51
Snippet: Lets now compute the same final size relation for when the transmission rate corresponds to the piecewise function shown above in Figure(1) , i.e., it is reduced for a period of time T . Assume that at the beginning of the epidemic the population was divided into susceptible (S 0 ) and infected (I 0 ), such that N = I 0 + S 0 . We proceed to compute the final size as follows:.....
Document: Lets now compute the same final size relation for when the transmission rate corresponds to the piecewise function shown above in Figure(1) , i.e., it is reduced for a period of time T . Assume that at the beginning of the epidemic the population was divided into susceptible (S 0 ) and infected (I 0 ), such that N = I 0 + S 0 . We proceed to compute the final size as follows:
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