Mike Nachtegael scite author profile

Removing or reducing impulse noise is a very active research area in image processing. In this paper we describe a new algorithm that is especially developed for reducing all kinds of impulse noise: fuzzy impulse noise detection and reduction method (FIDRM). It can also be applied to images having a mixture of impulse noise and other types of noise. The result is an image quasi without (or with very little) impulse noise so that other filters can be used afterwards. This nonlinear filtering technique contains two separated steps: an impulse noise detection step and a reduction step that preserves edge sharpness. Based on the concept of fuzzy gradient values, our detection method constructs a fuzzy set impulse noise. This fuzzy set is represented by a membership function that will be used by the filtering method, which is a fuzzy averaging of neighboring pixels. Experimental results show that FIDRM provides a significant improvement on other existing filters. FIDRM is not only very fast, but also very effective for reducing little as well as very high impulse noise.

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Noise reduction by fuzzy image filtering

Ville

Nachtegael

Weken

et al. 2003

IEEE Trans. Fuzzy Syst.

234

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Abstract-A new fuzzy filter is presented for the noise reduction of images corrupted with additive noise. The filter consists of two stages. The first stage computes a fuzzy derivative for eight different directions. The second stage uses these fuzzy derivatives to perform fuzzy smoothing by weighting the contributions of neighboring pixel values. Both stages are based on fuzzy rules which make use of membership functions. The filter can be applied iteratively to effectively reduce heavy noise. In particular, the shape of the membership functions is adapted according to the remaining noise level after each iteration, making use of the distribution of the homogeneity in the image. A statistical model for the noise distribution can be incorporated to relate the homogeneity to the adaptation scheme of the membership functions. Experimental results are obtained to show the feasibility of the proposed approach. These results are also compared to other filters by numerical measures and visual inspection.Index Terms-Additive noise, edge preserving filtering, fuzzy image filtering, noise reduction.

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Connections between binary, gray-scale and fuzzy mathematical morphologies

Nachtegael

Kerre

2001

Fuzzy Sets and Systems

100

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Fuzzy random impulse noise reduction method

Schulte¹,

Witte²,

Nachtegael³

et al. 2007

Fuzzy Sets and Systems

103

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Classical and Fuzzy Approaches towards Mathematical Morphology

Nachtegael

Kerre

2000

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Mike Nachtegael

A fuzzy impulse noise detection and reduction method

Noise reduction by fuzzy image filtering

Connections between binary, gray-scale and fuzzy mathematical morphologies

Fuzzy random impulse noise reduction method

Classical and Fuzzy Approaches towards Mathematical Morphology

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