Hossein Khodabakhshi Rafsanjani scite author profile

a b s t r a c tDiffusion coefficient has an important role in the performance of partial differential equation (PDE) based image denoising techniques. Commonly, the classical Perona-Malik (PM) diffusion coefficient is widely used in PDE-based noise removal algorithms. In this paper, PM diffusion coefficient is analyzed regarding to its flux. Based on the analysis, PM flux for regions where the gradient magnitude is higher than smoothing threshold may lead to undesirable blurring effect and edge displacement. To address these issues, the image is divided into three segments based on the gradient magnitude: regions where the gradient is lower than the smoothing threshold, regions where the gradient is between the smoothing threshold and inflection point of flux, and regions where the gradient magnitude is higher than inflection point. We define the conditions that should be considered in these three segments. Then, a diffusion coefficient, satisfying all these conditions, is computed. Experimental results confirm the performance of the proposed method with regard to peak signal-to-noise ratio (PSNR), mean structural similarity (MSSIM), universal quality index (UQI), visual information fidelity (VIF), feature similarity (FSIM), information content weighted SSIM (IW-SSIM) and visual quality.

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An adaptive diffusion coefficient selection for image denoising

Rafsanjani

Sedaaghi

Saryazdi

2017

Digital Signal Processing

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Image Denoising via Combination Anisotropic Diffusion and Bilateral Filtering

Zeinali

Saryazdi

Rafsanjani

2011

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Assessment of image processing methods to characterize the precise shape of the jet head in the hypersonic jet flows

Mirzaei

Rafsanjani

2018

Flow Measurement and Instrumentation

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