Residual-sparse fuzzy C-Means clustering incorporating morphological reconstruction and wavelet frames
In this article, we develop a residual-sparse Fuzzy C-Means (FCM) algorithm for image segmentation, which furthers FCM's robustness by realizing the favorable estimation of the residual (e.g., unknown noise) between an observed image and its ideal version (noise-free image). To achieve a sound...
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sg-ntu-dr.10356-1627592022-11-08T05:00:51Z Residual-sparse fuzzy C-Means clustering incorporating morphological reconstruction and wavelet frames Wang, Cong Pedrycz, Witold Li, Zhiwu Zhou, Mengchu Zhao, Jun School of Computer Science and Engineering Engineering::Computer science and engineering Fuzzy C-Means Image Segmentation In this article, we develop a residual-sparse Fuzzy C-Means (FCM) algorithm for image segmentation, which furthers FCM's robustness by realizing the favorable estimation of the residual (e.g., unknown noise) between an observed image and its ideal version (noise-free image). To achieve a sound tradeoff between detail preservation and noise suppression, morphological reconstruction is used to filter the observed image. By combining the observed and filtered images, a weighted sum image is generated. Tight wavelet frame decomposition is used to transform the weighted sum image into its corresponding feature set. Taking such feature set as data for clustering, we impose an ell _0 regularization term on residual to FCM's objective function, thus resulting in residual-sparse FCM, where spatial information is introduced for improving its robustness and making residual estimation more reliable. To further enhance segmentation accuracy of the proposed FCM, we employ morphological reconstruction to smoothen the labels generated by clustering. Finally, based on the prototypes and smoothed labels, a segmented image is reconstructed by using tight wavelet frame reconstruction. Experimental results regarding synthetic, medical, and real-world images show that the proposed algorithm is effective and efficient, and outperforms its peers. This work was supported in part by the Doctoral Students’ Short Term Study Abroad Scholarship Fund of Xidian University, in part by the National Natural Science Foundation of China under Grant 61873342, Grant 61672400, and Grant 62076189, in part by the Recruitment Program of Global Experts, and in part by the Science and Technology Development Fund, MSAR, under Grant 0012/2019/A1. 2022-11-08T05:00:51Z 2022-11-08T05:00:51Z 2020 Journal Article Wang, C., Pedrycz, W., Li, Z., Zhou, M. & Zhao, J. (2020). Residual-sparse fuzzy C-Means clustering incorporating morphological reconstruction and wavelet frames. IEEE Transactions On Fuzzy Systems, 29(12), 3910-3924. https://dx.doi.org/10.1109/TFUZZ.2020.3029296 1063-6706 https://hdl.handle.net/10356/162759 10.1109/TFUZZ.2020.3029296 2-s2.0-85120775282 12 29 3910 3924 en IEEE Transactions on Fuzzy Systems © 2020 IEEE. All rights reserved. |
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Engineering::Computer science and engineering Fuzzy C-Means Image Segmentation |
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Engineering::Computer science and engineering Fuzzy C-Means Image Segmentation Wang, Cong Pedrycz, Witold Li, Zhiwu Zhou, Mengchu Zhao, Jun Residual-sparse fuzzy C-Means clustering incorporating morphological reconstruction and wavelet frames |
| description |
In this article, we develop a residual-sparse Fuzzy C-Means (FCM) algorithm for image segmentation, which furthers FCM's robustness by realizing the favorable estimation of the residual (e.g., unknown noise) between an observed image and its ideal version (noise-free image). To achieve a sound tradeoff between detail preservation and noise suppression, morphological reconstruction is used to filter the observed image. By combining the observed and filtered images, a weighted sum image is generated. Tight wavelet frame decomposition is used to transform the weighted sum image into its corresponding feature set. Taking such feature set as data for clustering, we impose an ell _0 regularization term on residual to FCM's objective function, thus resulting in residual-sparse FCM, where spatial information is introduced for improving its robustness and making residual estimation more reliable. To further enhance segmentation accuracy of the proposed FCM, we employ morphological reconstruction to smoothen the labels generated by clustering. Finally, based on the prototypes and smoothed labels, a segmented image is reconstructed by using tight wavelet frame reconstruction. Experimental results regarding synthetic, medical, and real-world images show that the proposed algorithm is effective and efficient, and outperforms its peers. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Wang, Cong Pedrycz, Witold Li, Zhiwu Zhou, Mengchu Zhao, Jun |
| format |
Article |
| author |
Wang, Cong Pedrycz, Witold Li, Zhiwu Zhou, Mengchu Zhao, Jun |
| author_sort |
Wang, Cong |
| title |
Residual-sparse fuzzy C-Means clustering incorporating morphological reconstruction and wavelet frames |
| title_short |
Residual-sparse fuzzy C-Means clustering incorporating morphological reconstruction and wavelet frames |
| title_full |
Residual-sparse fuzzy C-Means clustering incorporating morphological reconstruction and wavelet frames |
| title_fullStr |
Residual-sparse fuzzy C-Means clustering incorporating morphological reconstruction and wavelet frames |
| title_full_unstemmed |
Residual-sparse fuzzy C-Means clustering incorporating morphological reconstruction and wavelet frames |
| title_sort |
residual-sparse fuzzy c-means clustering incorporating morphological reconstruction and wavelet frames |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162759 |
| _version_ |
1749179143869693952 |