No 3 (2012)

Cover Page

Inverse Problem of Determination of Source Function in Nondivergent Parabolic Equation

Kamynin V.L., Bukharova T.I.

Abstract

We obtain unique solvability for the inverse problem of determination of the unknown righthand side in multidimensional nondivergent parabolic equation. The additional information is included in the integral ∫︀ 0 (, )()d, where () is a given weight function. We adduce the examples of the inverse problems satisfying the conditions imposed.
Discrete and Continuous Models and Applied Computational Science. 2012;(3):5-12
pages 5-12 views

Problems of Stabilization and Optimal Stabilization of Non-Linear Controlled Systems

Shchennikov A.V., Shchennikov V.N., Vagapova J.J.

Abstract

Problems of stabilization and optimal stabilization due to V. V. Rumjantsev concerning a part of variables for non-linear controlled systems are solved.
Discrete and Continuous Models and Applied Computational Science. 2012;(3):13-19
pages 13-19 views

About Regular and Singular Perturbation System of ODE Polynomial Type with Singularity

Konyaev Y.A., Mergia W.B., Khoa Nguyen Viet -.

Abstract

Using the anagy method we study the structure of solutions to some regugar and singular perturbed model systems of ODE, the problems with power behavior of boundary layer being included.
Discrete and Continuous Models and Applied Computational Science. 2012;(3):20-24
pages 20-24 views

Variational Principles for the Differential DifferenceOperator of the Second Order

Kolesnikova I.A.

Abstract

The purpose of the present paper is to investigate the potentiality of the operator of differential difference equations and to construct of the functional, if the given operator is a potential on a given set relatively to the some bilinear form.
Discrete and Continuous Models and Applied Computational Science. 2012;(3):25-34
pages 25-34 views

Streaming and Elastic Traffic in Closs Networks

Basharin G.P., Russina N.V.

Abstract

Rapid progress in telecommunications which started in the end of 20th century raises new teletraffic problems. The result of the convergence of different networks stems that set of different traffic types should be served by the system. These types differ by their characteristics, in network bandwidth and Quality of Service (QoS) requirements. Diverse consumer needs, variety of on-line services and high-speed Internet access joined in the same system generate large amount of traffic most part of which includes elastic traffic. Multi-rate communication systems, developed at the beginning of 21th century as a result of engineering progress, are able to serve elastic traffic with variable rate depending on the number of prioritized streaming requests being processed in parallel. Specific characteristics of elastic traffic do not allow us to use Erlang multi-rate loss model for simulation of modern telecommunication systems. This paper concerns Erlang-like multi-service loss model of an adaptive multi-rate system for streaming and elastic traffic, where a set of bandwidth requirements corresponds to each type of elastic traffic. A bandwidth requirement is assigned to an entered elastic request depending on occupied bandwidth. The results obtained in the paper are applied to calculation of QoS parameters of the Closs network topology which is widely used in modern switching networks.
Discrete and Continuous Models and Applied Computational Science. 2012;(3):35-42
pages 35-42 views

Algorithm of Symbolic-Numeric Calculation Green Function for Differential Equations of Second Order

Belyaeva I.N., Bogachev E.V., Chekanov N.A.

Abstract

We develop algorithm and program of the symbolic-numeric construction of the Green function, in general, in the form of generalized power series for the ordinary differential equation of the second order with the first type boundary conditions that could consist the specific regular points. Examples of constructing the Green function for some boundary problems are given that show the efficiency of the developed program.
Discrete and Continuous Models and Applied Computational Science. 2012;(3):43-51
pages 43-51 views

Mathematical and Computer Modeling of Non-linear Deformation Waves in Shell with Viscous Liquid Inside

Blinkov Y.A., Ivanov S.V., Mogilevich L.I.

Abstract

The present investigation is devoted to the analysis of non-linear deformation waves propagation in physically non-linear elastic cylinder shell, containing viscous incompressible liquid. Wave processes in elastic cylinder shell without interaction with liquid were investigated earlier on the basis of soliton theory. The presence of liquid needs development of a new mathematical model and computer modeling of the processes, taking place in the system.
Discrete and Continuous Models and Applied Computational Science. 2012;(3):52-60
pages 52-60 views

Spot Electricity Prices Modelling with Regime Switching Models

Shchetinin E.Y., Kaplunov S.V., Markov P.N.

Abstract

We address the issue of modeling spot electricity prices with regime switching models. After reviewing the stylized facts about power markets we propose and fit various models to spot prices from german energy market EEX. Afterwards we assess their performance by comparing simulated and market prices. Our empirical study shows that (1) models with MRS are more realistic for spikes and jumps and (2) introducing herteroskedastiсity in the base regime model leads to better spike identification and goodness-of-fit than in MRS models with mean-reverting, constant volatility dynamics.
Discrete and Continuous Models and Applied Computational Science. 2012;(3):61-68
pages 61-68 views

Introduction of Self-Consistent Term in Stochastic Population Model Equation

Demidova A.V., Kulyabov D.S.

Abstract

In this paper we consider a mechanism to obtain stochastic differential equation with a consistent stochastic and deterministic parts.
Discrete and Continuous Models and Applied Computational Science. 2012;(3):69-78
pages 69-78 views

Numerical Investigation of Parameters in the Model of Gradient Optical Waveguide with Equidistant Spectrum of Waveguide Modes

Puzynina T.P., Thach Vo Trong -.

Abstract

By numerical solving of a parametric inverse Sturm-Liouville problem, investigation of the model of a planar optical waveguide with a gradient exponential profile of the refractive index has been done to determine the profile parameters providing proximity of the waveguide modes spectrum to an equidistant one.
Discrete and Continuous Models and Applied Computational Science. 2012;(3):79-86
pages 79-86 views

The Condition of Explicitness and the Diagonal Implicitness for Composition of Runge-Kutta Method with its Adjoint One

Gevorkyan M.N.

Abstract

The paper addresses three topics: the adjoint Runge-Kutta methods, the composition of several Runge - Kutta methods and symplectic partitioned Runge-Kutta methods. A connection between the explicitness or diagonal implicitness for adjoint Runge-Kutta methods and conditions of a partitioned symplectic Runge-Kutta methods.
Discrete and Continuous Models and Applied Computational Science. 2012;(3):87-96
pages 87-96 views

Modeling of Kinematic Properties and Dynamics Control of Systems with Program Constraints

Matukhina O.V.

Abstract

The present paper proposes the differential equations systems construction method which is used for determination of non-stationary nonholonomic constraints equations. The problem of dynamic equations construction is considered based on the integral variation principle. The expressions for control forces acting on the system in order to ensure consistence with constraints equations imposed on the system, are determined. Some results of solving the applied problems illustrate efficiency of the described methods.
Discrete and Continuous Models and Applied Computational Science. 2012;(3):97-103
pages 97-103 views

Nonimpact Reducing Mechanical Systems to Holonomic Programmed Set During Finite Time Under Indeterminancy Conditions

Mukhametzyanov I.A.

Abstract

The procedure of constructing the controls algorithm of the nonimpact reduction of the mechanics systems to holonomic programmed set in finite time under indeterminancy is proposed.
Discrete and Continuous Models and Applied Computational Science. 2012;(3):104-114
pages 104-114 views

On Cosmological Solutions with Sigma-Model Source

Golubtsova A.A., Ivashchuk V.D.

Abstract

A multidimensional model of gravity with a sigma-model action for scalar fields is considered. The gravitational model is defined on the manifold, which contains n Einstein factor spaces. General cosmological-type solutions to the field equations are obtained when n−1 factor-spaces are Ricci-flat. The solutions are defined up to solutions of geodesic equations corresponding to a sigma-model target space. Several examples of sigma-models are considered. A subclass of non-singular solutions is singled-out for the case when all factor-spaces are Ricci-flat.
Discrete and Continuous Models and Applied Computational Science. 2012;(3):115-128
pages 115-128 views

Nonlinear Model of the Earth Atmosphere with Regard to Rocket and Satellite Data

Rabinowitch A.S., Abakumov S.Y.

Abstract

The well-known model of the Earth standard atmosphere becomes unsatisfactory when altitudes are higher than 150 km. That is why in the paper a new model of the atmosphere is proposed. In this model strong electric fields in the Earth atmosphere are taken into account and described by means of the SU(2) Yang-Mills nonlinear generalization of the Maxwell equations. It is shown that the proposed nonlinear model is in a good balance with experimental data in the considered range of altitudes from zero to 1000 km.
Discrete and Continuous Models and Applied Computational Science. 2012;(3):129-137
pages 129-137 views

Chiral 8-Spinor Model with Pseudo-Vector Interaction

Rybakov Y.P., Farraj N., Umniyati Y.

Abstract

In the paper the structure of the chiral 8-spinor field model is discussed, the interaction with the electromagnetic, Yang-Mills and gravitational fields being included.
Discrete and Continuous Models and Applied Computational Science. 2012;(3):138-141
pages 138-141 views

Method of Singular Sources in Application to Electrovacuum Gravitational Einstein Fields

Gutsunaev T.I., Shaideman A.A., Terletsky A.Y.

Abstract

By means of the method of singular sources it is possible to construct a generalization of gravitational magnetic dipole.
Discrete and Continuous Models and Applied Computational Science. 2012;(3):142-146
pages 142-146 views

Nashi avtory

- -.
Discrete and Continuous Models and Applied Computational Science. 2012;(3):147-148
pages 147-148 views

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