m-Stability, Asymptotic Behavior And Properties Of A Class Of Covariant Nonlinear Multi-Agent Systems.

9 Pages Posted: 11 May 2020 Last revised: 6 Sep 2022

Date Written: 2020

Abstract

The equation x^a+y^b+z^c=m in real numbers represents a group of Nonlinear Multi-Agent Systems, is an ill-posed problem and can be used in physical sciences and social sciences. This article introduces some Equivalence-Conditions, Existence-Conditions and properties of xa+yb+zc=m in real numbers, and also defines “m-Stability”, a new measure of Stability of nonlinear equations. This article also introduces simple Java codes that can be used to verify Theorem-1 herein, and for finding feasible solutions for (x,y,z,a,b,c) in the Equation [(x^a+y^b+z^c)=m, for Integers in the interval: (-10^1677721600000000) < x,y,z, a,b,c, m< 10^1677721600000000 (and even larger positive-integers and smaller negative-integers depending on available computing power).

Keywords: Nonlinearity; Stability; Existence-Conditions; Equivalence-Conditions; Dynamical Systems; Mathematical Cryptography; Ill-posed Problems; Asymptotic Behavior.

Suggested Citation

Nwogugu, Michael C. I., m-Stability, Asymptotic Behavior And Properties Of A Class Of Covariant Nonlinear Multi-Agent Systems. (2020). Available at SSRN: https://ssrn.com/abstract=3575374 or http://dx.doi.org/10.2139/ssrn.3575374

Michael C. I. Nwogugu (Contact Author)

Independent ( email )

P. O. Box 11104
Enugu 400007, Enugu State 400007
Nigeria
2348149062100 (Phone)

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