A finite element nonoverlapping domain decomposition method with Lagrange multipliers for the dual total variation minimizations
In this paper, we consider a primal-dual domain decomposition method for total variation
regularized problems appearing in mathematical image processing. The model problem is
transformed into an equivalent constrained minimization problem by tearing-and-
interconnecting domain decomposition. Then, the continuity constraints on the subdomain
interfaces are treated by introducing Lagrange multipliers. The resulting saddle point
problem is solved by the first order primal-dual algorithm. We apply the proposed method to …
regularized problems appearing in mathematical image processing. The model problem is
transformed into an equivalent constrained minimization problem by tearing-and-
interconnecting domain decomposition. Then, the continuity constraints on the subdomain
interfaces are treated by introducing Lagrange multipliers. The resulting saddle point
problem is solved by the first order primal-dual algorithm. We apply the proposed method to …
Abstract
In this paper, we consider a primal-dual domain decomposition method for total variation regularized problems appearing in mathematical image processing. The model problem is transformed into an equivalent constrained minimization problem by tearing-and-interconnecting domain decomposition. Then, the continuity constraints on the subdomain interfaces are treated by introducing Lagrange multipliers. The resulting saddle point problem is solved by the first order primal-dual algorithm. We apply the proposed method to image denoising, inpainting, and segmentation problems with either -fidelity or -fidelity. Numerical results show that the proposed method outperforms the existing state-of-the-art methods.
Springer
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