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Adaptive Tensor-Based Principal Component Analysis for Low-Dose CT Image Denoising
Author(s) -
Danni Ai,
Jian Yang,
Jingfan Fan,
Weijian Cong,
Yongtian Wang
Publication year - 2015
Publication title -
plos one
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.99
H-Index - 332
ISSN - 1932-6203
DOI - 10.1371/journal.pone.0126914
Subject(s) - principal component analysis , noise reduction , artificial intelligence , pattern recognition (psychology) , noise (video) , pixel , transformation (genetics) , image quality , non local means , structure tensor , computer science , image processing , image (mathematics) , robust principal component analysis , mathematics , computer vision , image denoising , biology , biochemistry , gene
Computed tomography (CT) has a revolutionized diagnostic radiology but involves large radiation doses that directly impact image quality. In this paper, we propose adaptive tensor-based principal component analysis (AT-PCA) algorithm for low-dose CT image denoising. Pixels in the image are presented by their nearby neighbors, and are modeled as a patch. Adaptive searching windows are calculated to find similar patches as training groups for further processing. Tensor-based PCA is used to obtain transformation matrices, and coefficients are sequentially shrunk by the linear minimum mean square error. Reconstructed patches are obtained, and a denoised image is finally achieved by aggregating all of these patches. The experimental results of the standard test image show that the best results are obtained with two denoising rounds according to six quantitative measures. For the experiment on the clinical images, the proposed AT-PCA method can suppress the noise, enhance the edge, and improve the image quality more effectively than NLM and KSVD denoising methods.

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