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SIAMIS
2011
2011
An Upwind Finite-Difference Method for Total Variation-Based Image Smoothing
In this paper we study finite-difference approximations to the variational problem using the BV smoothness penalty that was introduced in an image smoothing context by Rudin, Osher, and Fatemi. We give a dual formulation for an upwind finite-difference approximation for the BV seminorm; this formulation is in the same spirit as one popularized by the first author for a simpler, less isotropic, finite-difference approximation to the (isotropic) BV seminorm. We introduce a multiscale method for speeding the approximation of both Chambolle’s original method and of the new formulation of the upwind scheme. We demonstrate numerically that the multiscale method is effective, and we provide numerical examples that illustrate both the qualitative and quantitative behavior of the solutions of the numerical formulations. AMS subject classifications. 15A15, 15A09, 15A23
Real-time TrafficBV Seminorm | Multiscale Method | SIAMIS 2011 | Software Engineering | finite-difference Approximation |
| Added | 15 May 2011 |
| Updated | 15 May 2011 |
| Type | Journal |
| Year | 2011 |
| Where | SIAMIS |
| Authors | Antonin Chambolle, Stacey Levine, Bradley J. Lucier |
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