Combined global and local information for blind CT image quality assessment via deep learning

Qi Gao; Sui Li; Manman Zhu; Danyang Li; Zhaoying Bian; Qingwen Lv; Dong Zeng; Jianhua Ma Sr.

doi:10.1117/12.2548953

16 March 2020 Combined global and local information for blind CT image quality assessment via deep learning

Qi Gao, Sui Li, Manman Zhu, Danyang Li, Zhaoying Bian, Qingwen Lv, Dong Zeng, Jianhua Ma Sr.

Proceedings Volume 11316, Medical Imaging 2020: Image Perception, Observer Performance, and Technology Assessment; 1131615 (2020) https://doi.org/10.1117/12.2548953
Event: SPIE Medical Imaging, 2020, Houston, Texas, United States

Abstract

Image quality assessment (IQA) is an important step to determine whether the computed tomography (CT) images are suitable for diagnosis. Since the high dose CT images are usually not accessible in clinical practice, no-reference (NR) CT IQA should be used. Most NR-IQA methods for CT images based on deep learning strategy focus on global information and ignores local performance, i.e., contrast, edge of local region. In this work, to address this issue, we presented a new NR-IQA framework combining global and local information for CT images. For simplicity, the NR-IQA framework is termed as NR-GL-IQA. In particular, the presented NR- GL-IQA adopts a convolutional neural network to predict entire image quality blindly without a reference image. In this stage, an elaborate strategy is used to automatically label the entire image quality for neural network training to cope with the problem of time-consuming in manually massive CT images annotation. Second, in the presented NR-GL-IQA method, Perception-based Image QUality Evaluator (PIQUE) is used to predict the local region quality because the PIQUE can adaptively capture the local region characteristics. Finally, the overall image quality is estimated by combining the global and local IQA together. The experimental results with Mayo dataset demonstrate that the presented NR-GL-IQA method can accurately predicts CT image quality and the combination of global and local IQA is closer to the radiologist assessment than that with only one single assessment.

Citation Download Citation

Qi Gao, Sui Li, Manman Zhu, Danyang Li, Zhaoying Bian, Qingwen Lv, Dong Zeng, and Jianhua Ma Sr. "Combined global and local information for blind CT image quality assessment via deep learning", Proc. SPIE 11316, Medical Imaging 2020: Image Perception, Observer Performance, and Technology Assessment, 1131615 (16 March 2020); https://doi.org/10.1117/12.2548953

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