Jeffrey Phillips Freeman on Nostr: Restricted Logarithmic Growth with Injection The Logistic Function, sometimes with ...
Restricted Logarithmic Growth with Injection
The Logistic Function, sometimes with modifications, has been used successfully to model a large range of natural systems. Some examples include bacterial growth, tumor growth, animal populations, neural network transfer functions, chemical reaction rates, language adoption, and diffusion of innovation, to name a few. The real world applications are simply staggering.
Because of the utility of this powerful little equation it has lead me to investigate more thoroughly how it works, and how it can be applied to novel innovations.
Read more here:
https://jeffreyfreeman.me/blog/restricted-logarithmic-growth-with-injection/
#Mathematics #Freemo
The Logistic Function, sometimes with modifications, has been used successfully to model a large range of natural systems. Some examples include bacterial growth, tumor growth, animal populations, neural network transfer functions, chemical reaction rates, language adoption, and diffusion of innovation, to name a few. The real world applications are simply staggering.
Because of the utility of this powerful little equation it has lead me to investigate more thoroughly how it works, and how it can be applied to novel innovations.
Read more here:
https://jeffreyfreeman.me/blog/restricted-logarithmic-growth-with-injection/
#Mathematics #Freemo