Nonlinear adaptive image filtering based on inhomogeneous diffusion and differential geometry

The inadequacy of the classic linear approach to edge detection and scale space filtering lies in the spatial averaging of the Laplacian. The Laplacian is the divergence of the gradient and thus is the divergence of both magnitude and direction. The divergence in magnitude characterizes edges and this divergence must not be averaged if the image structure is to be preserved. We introduce a new nonlinear filtering theory that only averages the divergence of direction. This averaging keeps edges and lines intact as their direction is nondivergent. Noise does not have this nondivergent consistency and its divergent direction is averaged. Higher order structures such as corners are singular points or inflection points in the divergence of direction and also are averaged. Corners are intersection points of edges of nondivergent direction (or smooth curves of small divergence in direction) and their averaging is limited. This approach provides a better compromise between noise removal and preservation of image structure. Experiments that verify and demonstrate the adequacy of this new theory are presented.

[1]  G. Ford,et al.  Structure preserving inhomogeneous diffusion in image filtering , 1993, Proceedings of 27th Asilomar Conference on Signals, Systems and Computers.

[2]  Philippe Saint-Marc,et al.  Adaptive Smoothing: A General Tool for Early Vision , 1991, IEEE Trans. Pattern Anal. Mach. Intell..

[3]  D Marr,et al.  A computational theory of human stereo vision. , 1979, Proceedings of the Royal Society of London. Series B, Biological sciences.

[4]  Jitendra Malik,et al.  Scale-Space and Edge Detection Using Anisotropic Diffusion , 1990, IEEE Trans. Pattern Anal. Mach. Intell..

[5]  D Marr,et al.  Theory of edge detection , 1979, Proceedings of the Royal Society of London. Series B. Biological Sciences.

[6]  Achim Hummel,et al.  Representations Based on Zero-Crossing in Scale-Space-M , 2018, CVPR 1986.

[7]  David C. Wang,et al.  Gradient inverse weighted smoothing scheme and the evaluation of its performance , 1981 .

[8]  P. Lions,et al.  Image selective smoothing and edge detection by nonlinear diffusion. II , 1992 .

[9]  Gary E. Ford,et al.  Image filtering by gradient inverse inhomogeneous diffusion , 1993, 1993 IEEE International Conference on Acoustics, Speech, and Signal Processing.

[10]  Andrew P. Witkin,et al.  Scale-Space Filtering , 1983, IJCAI.