A New Class of “Growth Functions” with Polynomial Variable Transfer Generated by Real Reaction Networks

A New Class of “Growth Functions” with Polynomial Variable Transfer Generated by Real Reaction Networks

In [4, 5], two classes of growth models with “exponentially variable transfer” and “correcting amendments of Bateman-Gompertz-Makeham-type” based on a specific extended reaction network have been studied [1]. In this article we will look at the new scheme with “polynomial variable transfer”. The con...

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Bibliographic Details
Main Author: Kyurkchiev Nikolay
Format: Article
Language:English
Published: Sciendo 2020-12-01
Series:Cybernetics and Information Technologies
Subjects:
reaction networks
generalized growth model
exponentially and polynomial variable transfers
Online Access:https://doi.org/10.2478/cait-2020-0062
Description
Summary:In [4, 5], two classes of growth models with “exponentially variable transfer” and “correcting amendments of Bateman-Gompertz-Makeham-type” based on a specific extended reaction network have been studied [1]. In this article we will look at the new scheme with “polynomial variable transfer”. The consideration of such a dynamic model in the present article is dictated by our passionate desire to offer an adequate model with which to well approximate specific data in the field of computer viruses propagation, characterized by rapid growth in the initial time interval. Some numerical examples, using CAS Mathematica illustrating our results are given.
ISSN:1314-4081

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