Top

Published in:

01-05-2019 | Image & Signal Processing

A Novel Distributed Multitask Fuzzy Clustering Algorithm for Automatic MR Brain Image Segmentation

Authors: Yizhang Jiang, Kaifa Zhao, Kaijian Xia, Jing Xue, Leyuan Zhou, Yang Ding, Pengjiang Qian

Published in: Journal of Medical Systems | Issue 5/2019

Abstract

Artificial intelligence algorithms have been used in a wide range of applications in clinical aided diagnosis, such as automatic MR image segmentation and seizure EEG signal analyses. In recent years, many machine learning-based automatic MR brain image segmentation methods have been proposed as auxiliary methods of medical image analysis in clinical treatment. Nevertheless, many problems regarding precise medical images, which cannot be effectively utilized to improve partition performance, remain to be solved. Due to the poor contrast in grayscale images, the ambiguity and complexity of MR images, and individual variability, the performance of classic algorithms in medical image segmentation still needs improvement. In this paper, we introduce a distributed multitask fuzzy c-means (MT-FCM) clustering algorithm for MR brain image segmentation that can extract knowledge common among different clustering tasks. The proposed distributed MT-FCM algorithm can effectively exploit information common among different but related MR brain image segmentation tasks and can avoid the negative effects caused by noisy data that exist in some MR images. Experimental results on clinical MR brain images demonstrate that the distributed MT-FCM method demonstrates more desirable performance than the classic signal task method.

Jiang, Y., Deng, Z., Chung, F. L. et al., Multi-task TSK fuzzy system modeling using inter-task correlation information. Information Sciences 298:512–533, 2015.CrossRef

Mihalkova L, Mooney R J. Transfer learning from minimal target data by mapping across relational domains. International Jont conference on Artifical intelligence. Morgan Kaufmann publishers Inc. 2009.

Argyriou, A., Evgeniou, T., and Pontil, M., Multi-task feature Learning. Advances in Neural Information Processing Systems 19:41–48, 2006.

Sato-Ilic, M., Fuzzy variable selection with degree of classification based on dissimilarity between distributions of variables. International Journal of Intelligent Technology and Applied Statistics 1:1–18, 2008.

Jiang, Y., Deng, Z., Chung, F. L. et al., Realizing two-view TSK fuzzy classification system by using collaborative Learning. IEEE Transactions on Systems Man & Cybernetics Systems 47:145–160, 2017.CrossRef

Yamanishi Y, Vert J P, Kanehisa M. Protein network inference from multiple genomic data: A supervised approach. Oxford University Press, 2004.

Cleuziou G, Exbrayat M, Martin L, et al. CoFKM: A centralized method for multiple-view clustering, Ninth IEEE International Conference on Data Mining. IEEE Computer Society, 2009.

Qian, P., Zhou, J., Jiang, Y. et al., Multi-view maximum entropy clustering by jointly leveraging inter-view collaborations and intra-view-weighted attributes. IEEE Access 6:28594–28610, 2018.CrossRef

Deng, Z., Jiang, Y., Chung, F. L. et al., Transfer prototype-based fuzzy clustering. IEEE Transactions on Fuzzy Systems 24:1210–1232, 2014.CrossRef

10.

Qian, P., Jiang, Y., Deng, Z. et al., Cluster prototypes and fuzzy memberships jointly leveraged cross-domain maximum entropy clustering. IEEE Transactions on Cybernetics 46:181, 2016.CrossRef

11.

Caruana, R., Multitask Learning. Machine Learning 28:41–75, 1997.CrossRef

12.

Jiang, Y., Chung, F. L., Ishibuchi, H. et al., Multitask TSK fuzzy system modeling by mining Intertask common hidden structure. IEEE Transactions on Cybernetics 45:534–547, 2017.CrossRef

13.

Bezdek, J. C., Ehrlich, R., and Full, W., FCM: The fuzzy c-means clustering algorithm[J]. Computers & Geosciences 10:191–203, 1984.CrossRef

14.

Qian, P., Zhao, K., Jiang, Y. et al., Knowledge-leveraged transfer fuzzy C -means for texture image segmentation with self-adaptive cluster prototype matching. Knowledge-Based Systems 130, 2017.CrossRef

15.

Qian, P., Jiang, Y., Deng, Z. et al., Cluster prototypes and fuzzy memberships jointly leveraged cross-domain maximum entropy clustering. IEEE Transactions on Cybernetics 46:181, 2016.CrossRef

16.

Pan, S. J., and Yang, Q., A survey on transfer Learning. IEEE Transactions on Knowledge & Data Engineering 22:1345–1359, 2010.CrossRef

17.

Zadrozny B. Learning and evaluating classifiers under sample selection bias, 2004.

18.

Dai W, Xue G R, Yang Q, et al. Transferring Naive Bayes Classifiers for Text Classification, National Conference on Artificial Intelligence. AAAI Press, 2007.

19.

Dinuzzo, F., Learning output kernels for multi-task problems. Neurocomputing 118:119–126, 2013.CrossRef

20.

Zheng, H., Geng, X., Tao, D. et al., A multi-task model for simultaneous face identification and facial expression recognition. Neurocomputing 171:515–523, 2016.CrossRef

21.

Jiang, Y., Deng, Z., Choi, K. S. et al., A novel multi-task TSK fuzzy classifier and its enhanced version for labeling-risk-aware multi-task classification. Information Sciences 357:39–60, 2016.CrossRef

22.

Hooijmans, M. T., Dzyubachyk, O., Nehrke, K. et al., Fast multistation water/fat imaging at 3T using DREAM-based RF shimming. Journal of Magnetic Resonance Imaging 42:217–223, 2015.CrossRef

23.

Eggers, H., Brendel, B., Duijndam, A. et al., Dual-echo Dixon imaging with flexible choice of echo times. Magnetic Resonance in Medicine 65:96–107, 2011.CrossRef

24.

Zaidi, H., Ojha, N., Morich, M. et al., Design and performance evaluation of a whole-body ingenuity TF PET-MRI system. Physics in Medicine & Biology 56:3091–3106, 2011.CrossRef

25.

Kalemis, A., Delattre, B. M., and Heinzer, S., Sequential whole-body PET/MR scanner: Concept, clinical use, and optimisation after two years in the clinic. The manufacturer's perspective. Magma 26:5–23, 2013.CrossRef

26.

Su, K. H., Hu, L., Stehning, C. et al., Generation of brain pseudo-CTs using an undersampled, single-acquisition UTE-mDixon pulse sequence and unsupervised clustering. Medical Physics 42:4974–4986, 2015.CrossRef

27.

Johansson, A., Karlsson, M., Yu, J. et al., Voxel-wise uncertainty in CT substitute derived from MRI. Medical Physics 39:3283–3290, 2012.CrossRef

Title: A Novel Distributed Multitask Fuzzy Clustering Algorithm for Automatic MR Brain Image Segmentation
Authors: Yizhang Jiang
Kaifa Zhao
Kaijian Xia
Jing Xue
Leyuan Zhou
Yang Ding
Pengjiang Qian
Publication date: 01-05-2019
Publisher: Springer US
Published in: Journal of Medical Systems / Issue 5/2019
Print ISSN: 0148-5598
Electronic ISSN: 1573-689X
DOI: https://doi.org/10.1007/s10916-019-1245-1

Keynote webinar | Spotlight on medication adherence

Springer Medicine

A Novel Distributed Multitask Fuzzy Clustering Algorithm for Automatic MR Brain Image Segmentation

Abstract

Keynote webinar | Spotlight on medication adherence

Springer Medicine

Abstract

Please log in to get access to this content

Other articles of this Issue 5/2019

Using Health Chatbots for Behavior Change: A Mapping Study

Patient-Specific Seizure Detection Method using Hybrid Classifier with Optimized Electrodes

Discussion on the Application of Multi-modal Magnetic Resonance Imaging Fusion in Schizophrenia

Provider Access to Legacy Electronic Anesthesia Records Following Implementation of an Electronic Health Record System

Glioma Tumor Grade Identification Using Artificial Intelligent Techniques

Automated Framework for Screening of Glaucoma Through Cloud Computing