Toning up Images by Smoothening Edges
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Date
2024
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IOSR-JM
Abstract
Background: Under Partial Differential Equations, an image is a function
2
f x y X ( , ),
. These equations
are used in smoothening of images. The necessity to have an excellent image quality is increasingly required in
the current world. Most of the obtained images are not as smooth as we would want hence they are blurred. Use
of the nonlinear diffusion equation is essential in the current day smoothening of images. This model inputs
smoothness in the denoising process. This research improved the quality of images through the use of nonlinear PDEs of parabolic nature i.e. the heat equation.
Materials and Methods: Numerical schemes of ADI (Alternating Direction Implicit method) and 2-EGSOR(2-
Point Explicit Group Successive Over Relaxation) were used to solve the equations in MATLAB subject to an
initial condition of a noisy image, generating various smoothened images.
Results: Comparatively output from ADI is very close to the original image in terms of alignment, smoothness
i.e. refined texture, well outlined contours and overall detail without stair casing. .This method is characterized
with a smaller residue and much time lapse. An error analysis too was carried out using Root Mean Square
Method. ADI & the blocked (ADI and EGSOR) register a comparatively lower RMSE.
Conclusion: The most suitable algorithm for image smoothening is Alternating Direction Implicit Method
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Citation
Fwamba, R. N., & Gatoto, J. (2024). Toning up images by smoothening edges. IOSR Journal of Mathematics (IOSR-JM), 20(1, Ser. 4), 14–24. https://doi.org/10.9790/0661-2001041424