Title :
Globally convergent iterative numerical schemes for nonlinear variational image smoothing and segmentation on a multiprocessor machine
Author :
Heers, Josef ; Schnörr, Christoph ; Stiehl, H.S.
Author_Institution :
LaVision GmbH, Gottingen, Germany
fDate :
6/1/2001 12:00:00 AM
Abstract :
We investigate several iterative numerical schemes for nonlinear variational image smoothing and segmentation implemented in parallel. A general iterative framework subsuming these schemes is suggested for which global convergence irrespective of the starting point can be shown. We characterize various edge-preserving regularization methods from the image processing literature involving auxiliary variables as special cases of this general framework. As a by-product, global convergence can be proven under conditions slightly weaker than these stated in the literature. Efficient Krylov subspace solvers for the linear parts of these schemes have been implemented on a multiprocessor machine. The performance of these parallel implementations has been assessed and empirical results concerning convergence rates and speed-up factors are reported
Keywords :
convergence of numerical methods; image segmentation; iterative methods; multiprocessing systems; parallel architectures; smoothing methods; variational techniques; Krylov subspace solvers; auxiliary variables; convergence rates; edge-preserving regularization methods; globally convergent iterative methods; multiprocessor machine; nonlinear variational image segmentation; nonlinear variational image smoothing; parallel processing; performance; speed-up factors; Computational efficiency; Computer vision; Convergence; Feature extraction; Image converters; Image processing; Image segmentation; Iterative methods; Smoothing methods; Stochastic processes;
Journal_Title :
Image Processing, IEEE Transactions on
