Application of Functional Operators with Shift to the Study of Renewable Systems When the Reproductive Process Is Described by Integrals with Degenerate Kernels

Oleksandr Karelin; Anna Tarasenko; Manuel Gonzalez-Hernandez

doi:10.4236/am.2013.410186

Applied Mathematics > Vol.4 No.10, October 2013

Application of Functional Operators with Shift to the Study of Renewable Systems When the Reproductive Process Is Described by Integrals with Degenerate Kernels

Oleksandr Karelin, Anna Tarasenko, Manuel Gonzalez-Hernandez
Institute of Basic Sciences and Engineering, Hidalgo State University, Pachuca, Mexico.
DOI: 10.4236/am.2013.410186 PDF HTML 4,063 Downloads 5,689 Views Citations

Abstract

We continue studying systems whose state depends on time and whose resources are renewably based on functional operators with shift. In previous articles, we considered the term which described results of reproductive processes as a linear expression or as a shift summand. In this work, the reproductive term is represented using an integral with a degenerate kernel. A cyclic model of evolution of the system with a renewable resource is developed. We propose a method for solving the balance equation and we determine an equilibrium state of the system. Having applied this model, we can investigate problems of natural systems and their resource production.

Keywords

Renewable Resource; Equilibrium State; Holder Space; Reproductive Process; Inverse Operator

Share and Cite:

Karelin, O. , Tarasenko, A. and Gonzalez-Hernandez, M. (2013) Application of Functional Operators with Shift to the Study of Renewable Systems When the Reproductive Process Is Described by Integrals with Degenerate Kernels. Applied Mathematics, 4, 1376-1380. doi: 10.4236/am.2013.410186.

Conflicts of Interest

The authors declare no conflicts of interest.

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