Highly Accurate Schemes for PDE-Based Morphology with General Convex Structuring Elements
作者:Michael Breuß, Joachim Weickert
摘要
The two fundamental operations in morphological image processing are dilation and erosion. These processes are defined via structuring elements. It is of practical interest to consider a variety of structuring element shapes. The realisation of dilation/erosion for convex structuring elements by use of partial differential equations (PDEs) allows for digital scalability and subpixel accuracy. However, numerical schemes suffer from blur by dissipative artifacts. In our paper we present a family of so-called flux-corrected transport (FCT) schemes that addresses this problem for arbitrary convex structuring elements. The main characteristics of the FCT-schemes are: (i) They keep edges very sharp during the morphological evolution process, and (ii) they feature a high degree of rotational invariance. We validate the FCT-scheme theoretically by proving consistency and stability. Numerical experiments with diamonds and ellipses as structuring elements show that FCT-schemes are superior to standard schemes in the field of PDE-based morphology.
论文关键词:Mathematical morphology, Dilation, Erosion, Partial differential equation, Finite difference method, Flux-corrected transport scheme
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论文官网地址:https://doi.org/10.1007/s11263-010-0366-2