Mathematics-Online lexicon: Wielandt Iteration

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	Mathematics-Online lexicon:
	Wielandt Iteration

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overview

The Wielandt iteration is an improvement of the von Mises method which generates a sequence of simultaneous approximations to an eigenvalue $\lambda$ and a corresponding normalized eigenvector

of a matrix

, starting from a sufficiently good initial guess. An iteration step is defined by

$\displaystyle \lambda_\ell$	$\displaystyle = u^{\operatorname t}_\ell A u_\ell$
$\displaystyle v_\ell$	$\displaystyle = \left( A-\lambda_\ell E \right)^{-1} u_\ell$
$\displaystyle u_{\ell+1}$	$\displaystyle = \frac{v_\ell}{\left\Vert v_\ell \right\Vert _2}$

where, in an implementation, $v_\ell$ is computed as a solution of a linear system.

For a simple eigenvalue of a symmetric matrix, the iteration converges cubically:

$\displaystyle \Delta_{\ell+1} \leq c \Delta_\ell^3$

with $\Delta_\ell=\max \left\{ \left\vert \lambda_\ell - \lambda \right\vert,\, \left\Vert u_\ell - \sigma_\ell u \right\Vert _2 \right\}$ and the sign $\sigma_\ell$ chosen so that $u_\ell^{\operatorname t} \left( \sigma_\ell u \right) \geq 0$ .

(Authors: Höllig/Pfeil/Walter)

see also:

Keyword: Wielandt
Keyword: Eigenvalue

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automatically generated 4/24/2007