ResearchBib Share Your Research, Maximize Your Social Impacts
Sign for Notice Everyday Sign up >> Login

A Proposed Non Linear Block Based Approach for Image De-Noising Using Wavelet

Journal: INTERNATIONAL JOURNAL OF COMPUTERS & TECHNOLOGY (Vol.5, No. 3)

Publication Date:

Authors : ; ; ;

Page : 226-231

Keywords : De-noise; Wavelet; Threshold; Filter; Pixel;

Source : Download Find it from : Google Scholarexternal

Abstract

Coding of images or processing of images has played a momentous role in the success of digital communications and multimedia. Coding plays a major role is 3D mobile generation. The image processing methods have been exploited through the years to improve the quality of digital images. In the image processing system De-noising based coding is used extensively. As we know that, in low bit rate applications, the blocking artifacts problem arises, which severely reduce the visual quality of the image. Reducing blocking artifacts is essential to render the compressed visual data acceptable to the viewer. So, to detect and reduce noise from the image is a major task. So removing the noise from original signal is still a challenging problem for researchers. There have been several published algorithms and each approach has its assumptions, advantages, and limitations. For real-time applications like television, photo-phone, etc. it is essential to reduce the noise power as much as possible and to retain the fine details and the edges in the image as well. Moreover, it is very important to have very low computational complexity so that the filtering operation is performed in a short time for online and real-time applications. The main focus of this paper is first to define an algorithm and based on that a non linear threshold filter is described which not only preserve the actual image structures in the presence of different types of noises (Salt & peepers, Speckle and Gaussian Noise) as well as it provide better? PSNR, MSE, MAE, & Time Complexity than others Classical algorithms.

Last modified: 2016-06-29 19:54:15