Your search keyword '"stability of the solution"' showing total 7 results

1. КРИТЕРІЇ СТІИКОСТІ ТА НЕСТІИКОСТІ В СЕРЕДНЬОМУ V КВАДРАТИЧНОМУ ДИФУЗІИНИХ СТОХАСТИЧНИХ ДИФЕРЕНЦІАЛЬНО-ФУНКЦІОНАЛЬНИХ СИСТЕМ ГІХМАНА—ІТО ПІД ДІЕЮ ЗОВНІШНИХ ЗБУРЕНЬ ТИПУ ВИПАДКОВИХ ВЕЛИЧИН.

Author

ЯСИНСЬКИЙ, В. К. and ЮРЧЕНКО, І. В.

Subjects

EIGENVALUES, EQUATIONS, FUNCTIONAL differential equations

Abstract

The authors investigate the asymptotic stability in the mean square of the trivial solution of the stochastic diffusion Gikhman–Ito functional differential equations in terms of the eigenvalues of the matrix constructed from the coefficients of these equations. [ABSTRACT FROM AUTHOR]

Published

2023

2. Mean-Square Stability and Instability Criteria for the Gikhman–Ito Stochastic Diffusion Functional Differential Systems Subject to External Disturbances of the Type of Random Variables.

Author

Yasynskyy, V. K. and Yurchenko, I. V.

Subjects

STABILITY criterion, RANDOM variables, STOCHASTIC differential equations, FUNCTIONAL differential equations

Abstract

The authors investigate the asymptotic stability in quadratic mean of the trivial solution of the Gikhman–Ito stochastic diffusion functional differential equations in terms of the eigenvalues of the matrix constructed from the coefficients of these equations. [ABSTRACT FROM AUTHOR]

Published

2023

3. Features of application of the Lanchester-type mathematical models in stochastic formulation when assessing the realities of air-land battle.

Author

SEMENENKO, Oleh, MASHKIN, Olexandr, ONOFRIICHUK, Petro, PAIUK, Oleksandr, and CHEREVATYI, Taras

Subjects

NUMERICAL solutions to stochastic differential equations, MATHEMATICAL models, STOCHASTIC models, STOCHASTIC differential equations, LINEAR differential equations, RANDOM variables

Abstract

This study provides a brief overview of the application of possible modifications of Lanchester-type models, namely, the representation of differential equations of such models in stochastic form. The stochastic setting of differential levels is used in Dynamic models if it is necessary to take into account the influence of random fluctuations (in particular, in radio engineering, thermodynamics, population dynamics models, etc.). As for Lanchester-type models, their stochastic appearance would allow considering the influence of random factors and elements of uncertainty, which are present to a certain extent in any combat operations. At the same time, unlike deterministic models, the numerical solution of systems of stochastic differential equations in such models requires the use of special methods, the choice of a specific one may be based on the requirements for the need to obtain an unambiguous approximate solution, or the probability distribution of the desired quantities. The possibility of obtaining different types of solutions is due to a characteristic feature of the developed methods for numerical integration of stochastic differential equations, namely, the existence of weak and strong approximate methods for solving them. For Lanchester equations, as models for predicting the probable course and results of combat operations, it seems appropriate to obtain a solution precisely in the form of parameters for distributions of random variables, which is possible after processing the results of using weak numerical methods. In addition, such methods are considered easier to implement in practice. Of particular note are the issues of estimating the stability of solutions (in the sense of Lyapunov) of stochastic models. While for Lanchester-type models, approximate practical methods for estimating stability can be considered, especially in relation to the simplest, linear statements of basic equations. The study considers an example of using the stochastic Lanchester-type model based on a system of linear inhomogeneous differential equations, with assumptions about the stability of solutions to the stochastic formulation of such equations. [ABSTRACT FROM AUTHOR]

Published

2021

4. АБСОРБЦИОННЫЕ ХАРАКТЕРИСТИКИ ФАЗНОЙ И ПОЯСНОЙ БУМАЖНО-ПРОПИТАННОЙ ИЗОЛЯЦИИ СИЛОВЫХ КАБЕЛЕЙ НА ПОСТОЯННОМ НАПРЯЖЕНИИ

Author

Беспрозванных, А. В., Москвитин, Е. С., and Кессаев, А. Г.

Abstract

Copyright of Electrical Engineering & Electromechanics is the property of National Technical University, Kharkiv Polytechnic Institute and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2015

5. Comparison of three approaches to studying stability of solutions to problems of discrete optimization and computational geometry.

Author

Gordeev, E.

Abstract

In the 1970-1980s, V. K. Leont'ev and E. N. Gordeev proposed and studied an approach to the analysis of the stability of solutions. In a number of subsequent articles, this approach was developed and the stability of solutions was analyzed on its basis. The approach itself is of a rather general nature but was originally connected with the discrete optimization problems. Later similar results, although in different terms, were published for various classes of problems. We demonstrate the proximity of approaches both on the level of statements of problems and the interpretation of results. [ABSTRACT FROM AUTHOR]

Published

2015

6. Formation of wavy nanostructures on the surface of flat substrates by ion bombardment.

Author

Kulikov, A. and Kulikov, D.

Subjects

MATHEMATICAL models, ION bombardment, NANOSTRUCTURES, BOUNDARY value problems, NONLINEAR boundary value problems

Abstract

A popular mathematical model for the formation of an inhomogeneous topography on the surface of a plate (flat substrate) during ion bombardment was considered. The model is described by the Bradley-Harper equation, which is frequently referred to as the generalized Kuramoto-Sivashinsky equation. It was shown that inhomogeneous topography (nanostructures in the modern terminology) can arise when the stability of the plane incident wavefront changes. The problem was solved using the theory of dynamical systems with an infinite-dimensional phase space, in conjunction with the integral manifold method and Poincaré-Dulac normal forms. A normal form was constructed using a modified Krylov-Bogolyubov algorithm that applies to nonlinear evolutionary boundary value problems. As a result, asymptotic formulas for solutions of the given nonlinear boundary value problem were derived. [ABSTRACT FROM AUTHOR]

Published

2012

7. Analysis of static and dynamic frictional contact of deformable bodies including large rotations of the contact surfaces.

Author

Lee, Kisu

Abstract

The numerical techniques are presented to solve the static and dynamic contact problems of deformable bodies having large rotations of the contact surfaces. The contact conditions on the possible contact surfaces are enforced by using the contact error vector, and an iterative scheme similar to augmented Lagrange multiplier method is employed to reduce the contact error vector monotonically. For dynamic contact problems using implicit time integration, a contact error vector is also defined by combining the displacement, velocity, and acceleration on the contact surface. The suggested iterative technique is implemented to ABAQUS by using the UEL subroutine UEL. In this work, after the computing procedures to solve the frictional contact problems are explained, the numerical examples are presented to compare the present solutions with those obtained by ABAQUS. [ABSTRACT FROM AUTHOR]

Published

2002