Proceedings of International Summer School “Iterative Methods and Matrix Computations”
G.H. Golub, L.A.Krukier
Описание
Содержимое

Lectures

LINEAR ITERATIVE METHODS
Beauwens Robert
LARGE-SCALE MATRIX COMPUTATIONS IN CONTROL: KRYLOV SUBSPACE METHODS
Datta B.N

HERMITIAN AND SKEW-HERMITIAN SPLITTING METHODS FOR NONHERMITIAN POSITIVE DEFINITE LINEAR SYSTEMS
Gene H. Golub

ITERATIVE SOLUTION OF NONSYMMETRIC LINEAR EQUATION SYSTEMS WITH DOMINANT SKEW-SYMMETRIC PART
Krukier L.A.

NUMERICAL-ANALYTICAL ALGORITHM OF SEISMIC WAVE PROPAGATION IN HETEROGENEOUS MEDIA
Reshetova G.V., Mikhailenko B.G., Mikhailov A.A.

MATRIX SPLITTING ITERATIVE METHODS AND THEIR IMPLEMENTA TION IN MESH STRUCTURES
Woznicki Zbigniew I.

ИТЕРАЦИОННЫЕ МЕТОДЫ РЕШЕНИЯ ЗАДАЧ КОНВЕКЦИИ-ДИФФУЗИИ
Вабищевич П.Н.

Abstracts of Young Scientists

DIFFERENCE SCHEME TO THE EQUATIONS OF ONE-DIMENSIONAL VIS COUS REAL GAS MOTION AND OF ONE-DIMENSIONAL NONLINEAR THER-MOVISCOELASTICITY WITH NONSMOOTH DATA
Amosov A.A., Vestfalsky A.E.
ONE METHOD FOR SOLVING SYSTEMS OF PARABOLIC EQUATIONS IN A PROBLEMS OF SEMICONDUCTOR MICROELECTRONICS
Asotsky D.I.

THE LOCAL GREEN'S FUNCTION METHOD IN CONVECTION-DIFFUSION PROBLEMS
Axelsson A.O.H., Glushkov E.V., Glushkova N.V.

TRIANGULAR SKEW-SYMMETRIC ITERATIVE SOLVERS FOR SOLVING NON-SYMMETRIC LINEAR EQUATION SYSTEMS
Belokon T.V.
THE NUMERICAL SOLUTION OF THE SINGULAR. INTEGRO- DIFFERENTIAL EQUATIONS IN LEBESGUE SPACES
Caraus Iurie

NUMERICAL AND EXACT SOLUTIONS FOR INTEGRO-DIFFERENTIAL EQUATIONS OF WAVE THEORY
Chesnokov A.A.

FINITE-DIFFERENCE SCHEME FOR INTEGRATION OF NAVIER-STOKES EQUATIONS OF INCOMPRESSIBLE FLUID ON A COLLOCATED NONORTHOGONAL GRID
Firsov D.K.

ON SINGULAR ELEMENTS FOR DOMAINS WITH CORNER POINTS
Glushkov E.V., Glushkova N.V.

BALANCE-CHARACTERISTIC METHODS FOR COMPRESSIBLE GAS FLOWS
Goloviznin V.M., Karabasov S.A.

A DOMAIN DECOMPOSITION METHOD FOR STEFAN PROBLEM WITH PRESCRIBED CONVECTION
Ignatieva M.A.
SPECTRAL-DIFFERENCE APPROXIMATION BASED ON THE STAGGERED GRIDS IN THE PLANAR PROBLEM OF FILTRATION-CONVECTION
Kantur O.Yu.

A NUMERICAL METHOD FOR THE COMPUTATION OF GUIDED MODES IN OPTICAL FIBRES
Kornilov G.P.

IDENTIFICATION OF HEAT SOURCE LOCATION
Kostikov A.O.

NUMERICAL COMPARISON OF BICG AND GMRES METHODS FOR SOLU¬TION OF STEADY CONVECTION-DIFFUSION PROBLEMS
Lapshina O.A.

A DIAGONALIZATION METHOD FOR SOLUTION OF RECTANGULAR SYSTEMS OF LINEAR EQUATIONS
Lezhnev M.V.
ONE ALGORITHM OF SVD
Lezhnev M.V.

ON COMPARING THE ITERATION ALGORITHMS FOR THE DIFFERENCE CONVECTION-DIFFUSION EQUATIONS USING MULTIPROCESSOR SYSTEM MPS 1000/16
Malyshev A.V., Shaidurov V.V.

DIFFERENCE SCHEME ON NONUNIFORM GRID FOR THIRD PARABOLIC BOUNDARY-VALUE PROBLEM
Martsynkevich R.

MULTIGRID SOLVER WITH DIFFERENT SMOOTHERS FOR CONVECTION-DIFFUSION PROBLEM
Muratova G.V., Andreeva E.M.

ONE OF THE MATHEMATICAL MODEL OF THE TEMPERATURE DISTRIBUTION IN WATER BASIN
Nikitenko O.B.

PARALLEL ELEMENT-BY-ELEMENT CONJUGATE GRADIENTS METHOD WITH DECREASED COMMUNICATIONS COSTS
Novikov A.K., Kopyssov S.P.

ITERATIVE METHODS FOR SOLVING NONLINEAR DIFFERENCE SCHEMES FOR HYPERBOLIC-PARABOLIC SYSTEMS OF EQUATIONS
Rybak I.

THE SOLUTION OF DYNAMIC CONVECTION-DIFFUSION-REACTION PROBLEMS WITH DOMINANT CONVECTION
Subbotina T.N.

THREE-DIMENSIONAL PROBLEM OF SUBSTANCE DEPOSITION
Shabas I.N.

THE APPLICATION OF NESTED DISSECTION METHOD FOR SOLVING ELASTO-STATICS PROBLEMS BY A MESHLESS APPROACH
Shirobokov D.A.

МОДЕЛИРОВАНИЕ ПОДЪЁМА ПРИМЕСИ С ОБЛАКОМ НАГРЕТОГО ГАЗА ВО ВРЕМЯ ПОЖАРА НА ОБЪЕКТАХ ХРАНЕНИЯ ОПАСНЫХ ВЕЩЕСТВ
Аксаков А.В.

МОДЕЛИРОВАНИЕ ПРЯМОЙ ЗАДАЧИ СЕЙСМОЛОГИИ: РАСПРОСТРАНЕНИЕ ЭЛАСТИЧЕСКИХ ВОЛН В НЕОДНОРОДНОМ 2Х И ЗХ МЕРНОМ ПРОСТРАНСТВЕ
Антоненко М. Н., Крагинский Л.М., Опарин А.М.

БАЛАНСНО-ХАРАКТЕРИСТИЧЕСКИЙ МЕТОД РЕШЕНИЯ ОДНОГО КВАЗИЛИНЕЙНОГО ГИПЕРБОЛИЧЕСКОГО УРАВНЕНИЯ
Головизнин В.М., Карабасов С А., Кобринский И.М.

АЛГЕБРАИЧЕСКИЙ МНОГОСЕТОЧНЫЙ МЕТОД ДЛЯ РЕШЕНИЯ СЕТОЧНОЙ ЗАДАЧИ КОНВЕКЦИИ-ДИФФУЗИИ
Калпуш Т.В., Шайдуров В.В.

О НЕКОТОРЫХ МЕТОДАХ ПОЛУЧЕНИЯ ОЦЕНОК ТОЧНОГО РЕШЕНИЯ x* ОПЕРАТОРНЫХ УРАВНЕНИЙ ВИДА х = Ах + f В СЛУЧАЕ, КОГДА СПЕКТРАЛЬНЫЙ РАДИУС p(A) НЕ ОБЯЗАТЕЛЬНО МЕНЬШЕ ЕДИНИЦЫ
Плюта А.И.