Title :
3-D Adaptive Nonlinear Complex-Diffusion Despeckling Filter
Author :
Rodrigues, P. ; Bernardes, R.
Author_Institution :
Centre of New Technol. for Med., Innovation & Biomed. Res. on Light & Image, Coimbra, Portugal
Abstract :
This work aims to improve the process of speckle noise reduction while preserving edges and other relevant features through filter expansion from 2-D to 3-D. Despeckling is very important for data visual inspection and as a preprocessing step for other algorithms, as they are usually notably influenced by speckle noise. To that intent, a 3-D approach is proposed for the adaptive complex-diffusion filter. This 3-D iterative filter was applied to spectral-domain optical coherence tomography medical imaging volumes of the human retina and a quantitative evaluation of the results was performed to allow a demonstration of the better performance of the 3-D over the 2-D filtering and to choose the best total diffusion time. In addition, we propose a fast graphical processing unit parallel implementation so that the filter can be used in a clinical setting.
Keywords :
adaptive filters; eye; image denoising; medical image processing; nonlinear filters; optical tomography; speckle; 3D adaptive nonlinear complex diffusion despeckling filter; 3D iterative filter; clinical setting; data visual inspection; fast graphical processing unit; filter expansion; human retina volume imaging; medical imaging; parallel implementation; parallel programming; preprocessing step; speckle noise reduction; spectral-domain optical coherence tomography; Biomedical imaging; Graphics processing unit; Instruction sets; Kernel; Message systems; Noise; Speckle; Adaptive filters; biomedical imaging; image denoising; parallel programming; Algorithms; Diffusion; Humans; Image Processing, Computer-Assisted; Nonlinear Dynamics; Retina; Tomography, Optical Coherence;
Journal_Title :
Medical Imaging, IEEE Transactions on
DOI :
10.1109/TMI.2012.2211609
