Three Dimensional Data-Driven Multi Scale Atomic Representation of Optical Coherence Tomography

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Three Dimensional Data-Driven Multi Scale Atomic Representation of Optical Coherence Tomography Publisher Pubmed

Kafieh R¹ ; Rabbani H¹ ; Selesnick I²

Show Affiliations

1. Department of Biomedical Engineering, Medical Image and Signal Processing Research Center, Isfahan Univ. of Medical Sciences, Isfahan, Iran
2. Electrical and Computer Engineering Department, Polytechnic Institute, New York University, New York, 11201, NY, United States

Source: IEEE Transactions on Medical Imaging Published:2015

Abstract

In this paper, we discuss about applications of different methods for decomposing a signal over elementary waveforms chosen in a family called a dictionary (atomic representations) in optical coherence tomography (OCT). If the representation is learned from the data, a nonparametric dictionary is defined with three fundamental properties of being data-driven, applicability on 3D, and working in multi-scale, which make it appropriate for processing of OCT images. We discuss about application of such representations including complex wavelet based K-SVD, and diffusion wavelets on OCT data. We introduce complex wavelet based K-SVD to take advantage of adaptability in dictionary learning methods to improve the performance of simple dual tree complex wavelets in speckle reduction of OCT datasets in 2D and 3D. The algorithm is evaluated on 144 randomly selected slices from twelve 3D OCTs taken by Topcon 3D OCT-1000 and Cirrus Zeiss Meditec. Improvement of contrast to noise ratio (CNR) (from 0.9 to 11.91 and from 3.09 to 88.9, respectively) is achieved. Furthermore, two approaches are proposed for image segmentation using diffusion. The first method is designing a competition between extended basis functions at each level and the second approach is defining a new distance for each level and clustering based on such distances. A combined algorithm, based on these two methods is then proposed for segmentation of retinal OCTs, which is able to localize 12 boundaries with unsigned border positioning error of 9.22 ± 3.05 μm, on a test set of 20 slices selected from 13 3D OCTs. © 2014 IEEE.

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Style	Citing Format
MLA	Kafieh R, Rabbani H, Selesnick I. "Three Dimensional Data-Driven Multi Scale Atomic Representation of Optical Coherence Tomography." IEEE Transactions on Medical Imaging, vol. 34, no. 5, 2015, pp. 1042-1062.
APA	Kafieh R, Rabbani H, Selesnick I (2015). Three Dimensional Data-Driven Multi Scale Atomic Representation of Optical Coherence Tomography. IEEE Transactions on Medical Imaging, 34(5), 1042-1062.
Chicago	Kafieh R, Rabbani H, Selesnick I. "Three Dimensional Data-Driven Multi Scale Atomic Representation of Optical Coherence Tomography." IEEE Transactions on Medical Imaging 34, no. 5 (2015): 1042-1062.
Harvard	Kafieh R, Rabbani H, Selesnick I (2015) 'Three Dimensional Data-Driven Multi Scale Atomic Representation of Optical Coherence Tomography', IEEE Transactions on Medical Imaging, 34(5), pp. 1042-1062.
Vancouver	Kafieh R, Rabbani H, Selesnick I. Three Dimensional Data-Driven Multi Scale Atomic Representation of Optical Coherence Tomography. IEEE Transactions on Medical Imaging. 2015;34(5):1042-1062.
BibTex	@article{ author = {Kafieh R and Rabbani H and Selesnick I}, title = {Three Dimensional Data-Driven Multi Scale Atomic Representation of Optical Coherence Tomography}, journal = {IEEE Transactions on Medical Imaging}, volume = {34}, number = {5}, pages = {1042-1062}, year = {2015} }
RIS	TY - JOUR AU - Kafieh R AU - Rabbani H AU - Selesnick I TI - Three Dimensional Data-Driven Multi Scale Atomic Representation of Optical Coherence Tomography JO - IEEE Transactions on Medical Imaging VL - 34 IS - 5 SP - 1042 EP - 1062 PY - 2015 ER -

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