McCormick S.F. — Multilevel Projection Methods for Partial Differential Equations :: Электронная библиотека попечительского совета мехмата МГУ

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McCormick S.F. — Multilevel Projection Methods for Partial Differential Equations

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Название: Multilevel Projection Methods for Partial Differential Equations

Автор: McCormick S.F.

Аннотация:

The multilevel projection method is a new formalism that provides a framework for the development of multilevel algorithms in a very general setting. This methodology guides the choices of all the major multilevel processes, including relaxation and coarsening, and it applies directly to global or locally refined discretizations.

This book was developed from lectures at the CBMS-NSF Regional Conference on Multigrid and Multilevel Adaptive Methods for Partial Differential Equations in June 1991, and is a supplement to Multilevel Adaptive Methods for Partial Differential Equations, also written by Stephen F. McCormick.

Язык:

Рубрика: Математика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1987

Количество страниц: 120

Добавлена в каталог: 22.10.2010

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Предметный указатель

Asynchronous fast adaptive composite grid method (AFAC)      14 44
Composite grid      13
Conforming      13
Convergence factor      55
Correction, additive      65
Correction, multiplicative      65
Directional iteration      50
Eigenvalue problem      7 74
Electrical impedance tomography      62
Energy      9
Error, absolute      21
Error, actual      6 20
Error, algebraic      6 21
Error, discretization      6 21
Error, relative      21
Error, residual      6
Fast adaptive composite grid method (FAC)      13—14 34
Finite volume element method (FVE)      82
Form, strong      9
Form, weak      9
Full approximation scheme (FAS)      44
Full weighting      19
Galerkin      12
Galerkin condition      19
Gauss — Seidel method      32
Generator      32
Grid generation      98
High order      97
Image reconstruction      86
INTERFACE      17
Inverse problems      62

Kaczmarz’s method      41 89
Linear equation      7
Linear quadratic regulator problem      76
Monotonicity      27
Multigrid method      34
Multilevel, Petrov — Galerkin method      33
Multilevel, projection method (PML)      31
Multilevel, Rayleigh — Ritz method      33
Nodal representations      14
Norm, discrete energy      5 23
Norm, energy      5 22
Norm, residual      24
Normal equations      95
Parameter estimation      62
Petrov — Galerkin      12
Problem formulation, equation      8
Problem formulation, variation      10
Projections      10
Rayleigh quotient      9
Rayleigh — Ritz      13
Realizability      14 42
Recursiveness      42
Riccati equations      76
Self-adaptive      97
Slave point      17 19
Support      13
Transport equations      70
Unigrid method (UG)      49
Variational conditions      19
Work unit (WU)      56
Zonal methods      98

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