Jinchuan Wang scite author profile

Abstract:Image fusion is widely used in different areas and can integrate complementary and relevant information of source images captured by multiple sensors into a unitary synthetic image. Medical image fusion, as an important image fusion application, can extract the details of multiple images from different imaging modalities and combine them into an image that contains complete and non-redundant information for increasing the accuracy of medical diagnosis and assessment. The quality of the fused image directly affects medical diagnosis and assessment. However, existing solutions have some drawbacks in contrast, sharpness, brightness, blur and details. This paper proposes an integrated dictionary-learning and entropy-based medical image-fusion framework that consists of three steps. First, the input image information is decomposed into low-frequency and high-frequency components by using a Gaussian filter. Second, low-frequency components are fused by weighted average algorithm and high-frequency components are fused by the dictionary-learning based algorithm. In the dictionary-learning process of high-frequency components, an entropy-based algorithm is used for informative blocks selection. Third, the fused low-frequency and high-frequency components are combined to obtain the final fusion results. The results and analyses of comparative experiments demonstrate that the proposed medical image fusion framework has better performance than existing solutions.

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The preparation and properties of black coating by micro arc oxidation on 2A12 aluminum alloy

Zhao

Dai

et al. 2019

Materials Letters

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Multi‐focus image fusion via morphological similarity‐based dictionary construction and sparse representation

Zhang

Zeng

et al. 2018

CAAI Transactions on Intelligence Technology

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Sparse representation has been widely applied to multi-focus image fusion in recent years. As a key step, the construction of an informative dictionary directly decides the performance of sparsity-based image fusion. To obtain sufficient bases for dictionary learning, different geometric information of source images is extracted and analysed. The classified image bases are used to build corresponding subdictionaries by principle component analysis. All built subdictionaries are merged into one informative dictionary. Based on constructed dictionary, compressive sampling matched pursuit algorithm is used to extract corresponding sparse coefficients for the representation of source images. The obtained sparse coefficients are fused by Max-L1 fusion rule first, and then inverted to form the final fused image. Multiple comparative experiments demonstrate that the proposed method is competitive with other the state-of-the-art fusion methods.

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Radioactive ion beam line in Lanzhou

Wang

Guo

Guanhua

et al. 1999

Sci. China Ser. A-Math.

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Jinchuan Wang

An Integrated Dictionary-Learning Entropy-Based Medical Image Fusion Framework

The preparation and properties of black coating by micro arc oxidation on 2A12 aluminum alloy

Multi‐focus image fusion via morphological similarity‐based dictionary construction and sparse representation

Radioactive ion beam line in Lanzhou

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