Title :
The closest-to-mean filter: an edge preserving smoother for Gaussian environments
Author :
Lau, Daniel Leo ; Gonzalez, Juan Guillermo
Author_Institution :
Dept. of Electr. Eng., Delaware Univ., Newark, DE, USA
Abstract :
Median based filters have gained wide-spread use because of their ability to preserve edges and suppress impulses. In this paper, we introduce the closest-to-mean (CTM) filter, which outputs the input sample closest to the sample mean. The CTM filtering framework offers lower computational complexity and better performance in near Gaussian environments than median filters. The formulation of the CTM filter is derived from the theory of S-filters, which form a class of generalized selection-type filters with the features of edge preservation and impulse suppression. S-filters can play a significant role in image processing, where edge and detail preservation are of paramount importance. We compare the performance of CTM, median, and mean filters in the smoothing of edges and impulses immersed in Gaussian noise. A sufficient condition for a signal to be a root of the CTM filter is included
Keywords :
Gaussian noise; computational complexity; digital filters; edge detection; image sampling; interference suppression; smoothing methods; CTM filtering framework; Gaussian environments; Gaussian noise; S-filters; closest-to-mean filter; computational complexity; edge preservation; edge preserving smoother; generalized selection-type filters; image processing; impulse suppression; input sample; median based filters; near Gaussian environments; performance; root; Computational complexity; Filtering theory; Filters; Gaussian noise; Image processing; Noise robustness; Signal processing; Smoothing methods; Sufficient conditions; World Wide Web;
Conference_Titel :
Acoustics, Speech, and Signal Processing, 1997. ICASSP-97., 1997 IEEE International Conference on
Conference_Location :
Munich
Print_ISBN :
0-8186-7919-0
DOI :
10.1109/ICASSP.1997.595319
