Hi Dominique,
I am an intense SU user, and a CSM-Geop graduate, I would like to have an account.
I put a paper together using SU package, it was published two years ago by Istanbul Uni.
publication resources.
We are fine for now in Houston, TX.
Regards,
Cemal
Cemal Erdemir
Email: cerdemir(a)hotmail.com
Cell: +1 832 668 6289
Office: +1 281 858 7653
________________________________
From: Seisunix <seisunix-bounces(a)mailman.seismic-unix.org> on behalf of Dominique
ROUSSET <dominique.rousset(a)univ-pau.fr>
Sent: Monday, April 6, 2020 2:18 AM
To: seisunix(a)mailman.seismic-unix.org <seisunix(a)mailman.seismic-unix.org>
Subject: Re: [Seisunix] Modeling Covid-19 with Seismic Unix
Hi John,
SU is definitely full of unknown resources !!!
I hope everyone is as fine as possible, in these difficult times...
D.
PS
Don't forget that
wiki.seismic-unix.org needs contributions !!!!
Ask me for an account to write in the wiki...
Le 05/04/2020 à 20:38, John Stockwell a écrit :
I send my good wishes to all of you and I hope that you, your families, and your friends
are faring well in this difficult time.
For those who are interested in modeling populations, such as the current epidemic, there
is a logistic equation solver called
“verhulst” in the SU package which you may find of interest.
For example for Covid-19 cases in the US, taking 22 January as day 0 of cases in the US
and 29 February as day 0 for deaths. Respective
stepmax= values of 72 for cases and 34 for deaths are both 3 April
verhulst stepmax=72 h=1 a1=.176 y0=1 a2=1e7 mode=x > calculated_cases.bin
verhulst stepmax=35 h=1 a1=.268 y0=1 a2=1e6 mode=x > calculated_deaths.bin
xgraph < calculated_cases.bin n=72 nplot=1 d1=1 &
xgraph < calculated_deaths.bin n=34 nplot=1 d1=1 &
The growth rate a1 values are determined empirically from publicly available data, in this
case from the CDC and from the Worldometer site. You will have to make your own estimate
of a1 for the data that you are modeling.
Another parameter that is harder to get is an estimate of the carrying capacity of the
system a2. Here I am assuming a maximum of 1 million cases in the US and 100 thousand
deaths.
The number of new cases or deaths per day is measured by the derivative of the solutions
to the verhulst equation
verhulst stepmax=72 h=1 a1=.176 y0=1 a2=1e7 mode=y > delta_cases.bin
verhulst stepmax=35 h=1 a1=.268 y0=1 a2=1e6 mode=y > delta_deaths.bin
xgraph < delta_cases.bin n=72 nplot=1 d1=1 &
xgraph < delta_deaths.bin n=34 nplot=1 d1=1 &
The peak in the change of the population per day occurs when the population reaches the
exactly half of the carrying capacity of the system. Thus, raising the carrying capacity
will increase the height of the peak and move it out later in time.
Take care, everyone and stay safe.
-John
John Stockwell
Visit:
https://wiki.Seismic-Unix.org
The new home of Seismic Un*x
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|Dominique Rousset LFCR UMR5150 / E2S UPPA / Dpt des géosciences|
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