Title :
Speckle suppression by adaptive nonlinear filtering
Author :
Ghofrani, S. ; Ayatollahi, A.
Abstract :
Using a good statistical model of speckle formation is important in designing an adaptive filter for speckle reduction in ultrasound B-scan images. Most clinical ultrasound imaging systems use a nonlinear logarithmic function to reduce the dynamic range of the input echo signal and emphasize objects with weak backscatter. The statistic of log-compressed images for Nakagami distribution was derived (Ghofrani et al. 2001) and in this paper we use the results for designing an adaptive nonlinear filter in speckle reduction. We processed two original ultrasound images of kidney and liver to demonstrate the efficiency of the designed filter.
Keywords :
adaptive filters; biomedical ultrasonics; interference suppression; kidney; liver; medical image processing; nonlinear filters; probability; speckle; Nakagami distribution; adaptive filter; adaptive nonlinear filtering; clinical ultrasound imaging systems; kidney; liver; log-compressed images; speckle suppression; statistical model; ultrasound B-scan images; Adaptive filters; Backscatter; Dynamic range; Filtering; Liver; Nakagami distribution; Nonlinear filters; Speckle; Statistical distributions; Ultrasonic imaging;
Conference_Titel :
Video/Image Processing and Multimedia Communications 4th EURASIP-IEEE Region 8 International Symposium on VIPromCom
Print_ISBN :
953-7044-01-7
DOI :
10.1109/VIPROM.2002.1026648
