Synthesis of neural pulse interference filters for image restoration

被引：6

作者：

Solovyeva E.B. ^{[1
]}

Degtyarev S.A. ^{[1
]}

机构：

[1] Saint Petersburg Electrotechnical University LETI, St. Petersburg

来源：

Radioelectronics and Communications Systems | 2008年 / 51卷 / 12期

关键词：

Median Filter; Image Restoration; Nonlinear Filtration; Filtration Error; Pulse Interference;

D O I：

10.3103/S0735272708120054

中图分类号：

学科分类号：

摘要：

The synthesis of nonlinear pulse interference filters in the form of three-layer and polynomial perceptrons has been considered in this study. Neural filters were used for removing the "salt and pepper"-type pulse interference from half-tone images. It was shown that a three-layer perceptron filter in terms of the filtration accuracy is not inferior to its polynomial analogues and its mathematical model is mush simpler than the Volterra model. Neural and polynomial filters ensure a higher level of pulse interference suppression as compared with median filters. © Allerton Press, Inc. 2008.

引用

页码：661 / 668

页数：7

共 15 条

[1] Huang T.S., Eklundh J.-O., Nussbaumer G.J., Et al., Two-Dimensional Digital Signal Processing II, (1984)
[2] Gonzalez R., Woods R., Digital Image Processing, (2005)
[3] Gonzalez R., Woods R., Eddins S., Digital Image Processing Using MATLAB, (2006)
[4] Ramponi G., Sicuranza L., Quadratic digital filters for image processing, IEEE Trans. Acoust., Speech, Signal Process., 36, 6, (1988)
[5] Shcherbakov M.A., Steshenko V.B., Gubanov D.A., Digital polynomial filtration in real time: Algorithms and realization techniques based on the state-of-the-art circuitry, Tsifrovaya Obrabotka Signalov, 1, (2000)
[6] Lanne A.A., Solov'eva E.B., Nonlinear filtration of pulse interferences by the split method, Radioelectron. Commun. Syst., 42, 7, (1999)
[7] Lanne A.A., Solov'eva E.B., Nonlinear filtration of images with pulse interferences (theoretical principles), Radioelectron. Commun. Syst., 43, 3, (2000)
[8] Lanne A.A., Solov'eva E.B., Nonlinear filtration of images with pulse interferences (examples of realization), Radioelectron. Commun. Syst., 43, 4, (2000)
[9] Chen T., Chen H., Universal approximation to nonlinear operators by neural networks with arbitrary activation functions and its application to dynamical systems, IEEE Trans. Neural Networks, 6, 4, (1995)
[10] Xiang Z., Bi G., Le-Ngoc T., Polynomial-perceptrons and their applications to fading channel equalization and co-channel interference suppression, IEEE Trans. Circuits, Syst., 42, 9, (1994)

← 1 2 →