Dynamic behaviour of integro-differential boundary value problem via Cellular Nanoscale Network approach

Elena Litsyn; Angela Slavova

Dynamic behaviour of integro-differential boundary value problem via Cellular Nanoscale Network approach

Elena Litsyn, Angela Slavova

Department of Mathematics

Research output: Contribution to journal › Article › peer-review

Abstract

Piezoelectrical solid with heterogeneities of different type and size is studied in the paper. The model is defined by the system of two partial differential equations and the boundary conditions which define the generalized stress. We reduce the model into an integro-differential boundary value problem and construct Cellular Nanoscale Network (CNN) architecture. Dynamical behaviour of the obtained CNN model is studied by means of describing function technique. Simulations are provided which illustrate the theoretical results.

Original language	English
Pages (from-to)	753-760
Number of pages	8
Journal	Comptes Rendus de L'Academie Bulgare des Sciences
Volume	70
Issue number	6
State	Published - 1 Jan 2017

Keywords

Cellular Nanoscale Network
Describing function technique
Integro-differential boundary value problem
Piezoelectric finite solid

ASJC Scopus subject areas

General

Cite this

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abstract = "Piezoelectrical solid with heterogeneities of different type and size is studied in the paper. The model is defined by the system of two partial differential equations and the boundary conditions which define the generalized stress. We reduce the model into an integro-differential boundary value problem and construct Cellular Nanoscale Network (CNN) architecture. Dynamical behaviour of the obtained CNN model is studied by means of describing function technique. Simulations are provided which illustrate the theoretical results.",

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AB - Piezoelectrical solid with heterogeneities of different type and size is studied in the paper. The model is defined by the system of two partial differential equations and the boundary conditions which define the generalized stress. We reduce the model into an integro-differential boundary value problem and construct Cellular Nanoscale Network (CNN) architecture. Dynamical behaviour of the obtained CNN model is studied by means of describing function technique. Simulations are provided which illustrate the theoretical results.

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KW - Describing function technique

KW - Integro-differential boundary value problem

KW - Piezoelectric finite solid

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ER -

Dynamic behaviour of integro-differential boundary value problem via Cellular Nanoscale Network approach

Abstract

Keywords

ASJC Scopus subject areas

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