Title :
Impulse noise reduction in 2D electrical resistivity imaging data based on fuzzy logic
Author :
Ferahtia, J. ; Djarfour, N. ; Baddari, Kamel ; Khaldoun, Asmae
Author_Institution :
Lab. de Phys. de la Terre (LABOPHYT), Univ. M´Hamed Bougara, Boumerdès, Algeria
Abstract :
In this paper a filter based on fuzzy logic is proposed to reduce impulse noise from 2D electrical resistivity imaging data. Common types of noise in electrical resistivity data are coherent noise, due to near surface inhomogeneities or electrode effects, random or impulsive noise, resulting from telluric currents, electrode polarization or measurements with low signal-to-noise ratio. The noise detection is based on computing difference between a central sample and its neighbourhood. The detected noisy sample is then removed by a fuzzy based filtering process. Experimental results show the effectiveness of our filter in reducing both coherent and impulsive noise compared to popular median filter. The comparison of the results is based on the Mean-square-error in the inversion process.
Keywords :
electrical resistivity; fuzzy logic; image processing; impulse noise; mean square error methods; median filters; random noise; 2D electrical resistivity imaging data; coherent noise; electrode polarization; fuzzy based filtering process; fuzzy logic; impulse noise reduction; impulsive noise; mean-square-error; median filter; near surface inhomogeneities; noise detection; random noise; telluric currents; Conductivity; Filtering; Fuzzy logic; Geophysical measurements; Noise; Noise measurement; Resistance; Fuzzy logic; Geophysics; Inversion; Median filter; Pseudosection; Resistivity; Spike noise;
Conference_Titel :
Communications, Computing and Control Applications (CCCA), 2011 International Conference on
Conference_Location :
Hammamet
Print_ISBN :
978-1-4244-9795-9
DOI :
10.1109/CCCA.2011.6031450
