A deep convolutional neural network using directional wavelets for low-dose X-ray CT reconstruction.

Journal: Medical physics

Published Date: Oct 1, 2017

Abstract

PURPOSE: Due to the potential risk of inducing cancer, radiation exposure by X-ray CT devices should be reduced for routine patient scanning. However, in low-dose X-ray CT, severe artifacts typically occur due to photon starvation, beam hardening, and other causes, all of which decrease the reliability of the diagnosis. Thus, a high-quality reconstruction method from low-dose X-ray CT data has become a major research topic in the CT community. Conventional model-based de-noising approaches are, however, computationally very expensive, and image-domain de-noising approaches cannot readily remove CT-specific noise patterns. To tackle these problems, we want to develop a new low-dose X-ray CT algorithm based on a deep-learning approach.

Authors

Eunhee Kang
Junhong Min

Bio Imaging and Signal Processing Lab., Dept. of Bio and Brain Engineering, KAIST, Daejeon, Korea.
Jong Chul Ye

Keywords

Artifacts Humans Image Processing, Computer-Assisted Neural Networks, Computer Radiation Dosage Signal-To-Noise Ratio Tomography, X-Ray Computed Wavelet Analysis

External Resources

View on PubMed Access via DOI PubMed (29027238)

A deep convolutional neural network using directional wavelets for low-dose X-ray CT reconstruction.

Abstract

Authors

Keywords

External Resources

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