Multi-level method in eigenvalue problem
One method for computing the least eigenvalue of a positive definite matrix of order is described.
Displaying 281 – 300 of 552
Multilevel preconditioners for Lagrange multipliers in domain imbedding.
Martikainen, Janne, Rossi, Tuomo, Toivanen, Jari (2003)
ETNA. Electronic Transactions on Numerical Analysis [electronic only]
Multilevel preconditioning.
Wolfgang Dahmen, Angela Kunoth (1992)
Numerische Mathematik
Multilevel Schwarz methods.
Xuejun Zhang (1992)
Numerische Mathematik
Multiparameter extrapolation and deflation methods for solving equation systems.
Hughes Hallett, A.J. (1984)
International Journal of Mathematics and Mathematical Sciences
Multiplicative Schwarz Methods for Discontinuous Galerkin Approximations of Elliptic Problems
Paola F. Antonietti, Blanca Ayuso (2008)
ESAIM: Mathematical Modelling and Numerical Analysis
In this paper we introduce and analyze some non-overlapping multiplicative Schwarz methods for discontinuous Galerkin (DG) approximations of elliptic problems. The construction of the Schwarz preconditioners is presented in a unified framework for a wide class of DG methods. For symmetric DG approximations we provide optimal convergence bounds for the corresponding error propagation operator, and we show that the resulting methods can be accelerated by using suitable Krylov space solvers. A discussion...
Nearly optimal convergence result for multigrid with aggressive coarsening and polynomial smoothing
Petr Vaněk, Marian Brezina (2013)
Applications of Mathematics
We analyze a general multigrid method with aggressive coarsening and polynomial smoothing. We use a special polynomial smoother that originates in the context of the smoothed aggregation method. Assuming the degree of the smoothing polynomial is, on each level , at least , we prove a convergence result independent of . The suggested smoother is cheaper than the overlapping Schwarz method that allows to prove the same result. Moreover, unlike in the case of the overlapping Schwarz method, analysis...
Neumann-Neumann algorithms for spectral elements in three dimensions
Luca F. Pavarino (1997)
ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique
Neumann-Neumann methods for vector field problems.
Toselli, Andrea (2000)
ETNA. Electronic Transactions on Numerical Analysis [electronic only]
New iterative codes for𝓗-tensors and an application
Feng Wang, Deshu Sun (2016)
Open Mathematics
New iterative codes for identifying 𝓗 -tensor are obtained. As an application, some sufficient conditions of the positive definiteness for an even-order real symmetric tensor, i.e., an even-degree homogeneous polynomial form are given. Advantages of results obtained are illustrated by numerical examples.
New mixed finite volume methods for second order eliptic problems
Kwang Y. Kim (2006)
ESAIM: Mathematical Modelling and Numerical Analysis
In this paper we introduce and analyze new mixed finite volume methods for second order elliptic problems which are based on H(div)-conforming approximations for the vector variable and discontinuous approximations for the scalar variable. The discretization is fulfilled by combining the ideas of the traditional finite volume box method and the local discontinuous Galerkin method. We propose two different types of methods, called Methods I and II, and show that they have distinct advantages over...
New SOR-like methods for solving the Sylvester equation
Jakub Kierzkowski (2015)
Open Mathematics
We present new iterative methods for solving the Sylvester equation belonging to the class of SOR-like methods, based on the SOR (Successive Over-Relaxation) method for solving linear systems. We discuss convergence characteristics of the methods. Numerical experimentation results are included, illustrating the theoretical results and some other noteworthy properties of the Methods.
Newton iteration for the closest normal matrix of order two.
László, Lajos (2005)
Mathematica Pannonica
Noise propagation in regularizing iterations for image deblurring.
Hansen, Per Christian, Jensen, Toke Koldborg (2008)
ETNA. Electronic Transactions on Numerical Analysis [electronic only]
Nonconforming Galerkin methods based on quadrilateral elements for second order elliptic problems
Jim Jr. Douglas, Juan E. Santos, Dongwoo Sheen, Xiu Ye (1999)
ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique
Nonconforming Galerkin methods based on quadrilateral elements for second order elliptic problems
Jim Douglas Jr., Juan E. Santos, Dongwoo Sheen, Xiu Ye (2010)
ESAIM: Mathematical Modelling and Numerical Analysis
Low-order nonconforming Galerkin methods will be analyzed for second-order elliptic equations subjected to Robin, Dirichlet, or Neumann boundary conditions. Both simplicial and rectangular elements will be considered in two and three dimensions. The simplicial elements will be based on P1, as for conforming elements; however, it is necessary to introduce new elements in the rectangular case. Optimal order error estimates are demonstrated in all cases with respect to a broken norm in H1(Ω)...
Nonexpansive matrices with applications to solutions of linear systems by fixed point iterations.
Lim, Teck-Cheong (2010)
Fixed Point Theory and Applications [electronic only]
Non-stationary parallel multisplitting AOR methods.
Fuster, Robert, Migallón, Violeta, Penadés, José (1996)
ETNA. Electronic Transactions on Numerical Analysis [electronic only]
Normes et algorithmes associés à une découpe de matrice. (Itération du principe de Gauss-Seidel).
F. Robert, J.F. Maitre (1972)
Numerische Mathematik
Note about the parallel projection method for solution of system of linear algebraic equations
Fridrich Sloboda (1974)
Acta Universitatis Carolinae. Mathematica et Physica