Texture Image Segmentation Using Affinity Propagation and Spectral Clustering
作者: Hui Du , Yuping Wang , Xiaopan Dong
DOI: 10.1142/S0218001415550095
关键词: Correlation clustering 、 Cluster analysis 、 Pattern recognition 、 Affinity propagation 、 k-medians clustering 、 CURE data clustering algorithm 、 Mathematics 、 Fuzzy clustering 、 Data stream clustering 、 Artificial intelligence 、 Canopy clustering algorithm
摘要: Clustering is a popular and effective method for image segmentation. However, existing cluster methods often suffer the following problems: (1) Need a huge space and a lot of computation when the input data are large. (2) Need to assign some parameters (e.g. number of clusters) in advance which will affect the clustering results greatly. To save the space and computation, reduce the sensitivity of the parameters, and improve the effectiveness and efficiency of the clustering algorithms, we construct a new clustering algorithm for image segmentation. The new algorithm consists of two phases: coarsening clustering and exact clustering. First, we use Affinity Propagation (AP) algorithm for coarsening. Specifically, in order to save the space and computational cost, we only compute the similarity between each point and its t nearest neighbors, and get a condensed similarity matrix (with only t columns, where t << N and N is the number of data points). Second, to further improve the efficiency and effectiveness of the proposed algorithm, the Self-tuning Spectral Clustering (SSC) is used to the resulted points (the representative points gotten in the first phase) to do the exact clustering. As a result, the proposed algorithm can quickly and precisely realize the clustering for texture image segmentation. The experimental results show that the proposed algorithm is more efficient than the compared algorithms FCM, K-means and SOM.
sci-hub.se 参考文章(17)
H.S. Sheshadri, A. Kandaswamy, Experimental investigation on breast tissue classification based on statistical feature extraction of mammograms. Computerized Medical Imaging and Graphics. ,vol. 31, pp. 46- 48 ,(2007) , 10.1016/J.COMPMEDIMAG.2006.09.015
T. Kohonen, The self-organizing map Proceedings of the IEEE. ,vol. 78, pp. 1464- 1480 ,(1990) , 10.1109/5.58325
James C. Bezdek, Robert Ehrlich, William Full, FCM: The fuzzy c-means clustering algorithm Computers & Geosciences. ,vol. 10, pp. 191- 203 ,(1984) , 10.1016/0098-3004(84)90020-7
Fernando Roberti de Siqueira, William Robson Schwartz, Helio Pedrini, Multi-scale gray level co-occurrence matrices for texture description web science. ,vol. 120, pp. 336- 345 ,(2013) , 10.1016/J.NEUCOM.2012.09.042
Dongdong Yang, Lei Wang, Xinhong Hei, Maoguo Gong, An efficient automatic SAR image segmentation framework in AIS using kernel clustering index and histogram statistics soft computing. ,vol. 16, pp. 63- 79 ,(2014) , 10.1016/J.ASOC.2013.11.015
Kangyu Ni, Xavier Bresson, Tony Chan, Selim Esedoglu, Local Histogram Based Segmentation Using the Wasserstein Distance International Journal of Computer Vision. ,vol. 84, pp. 97- 111 ,(2009) , 10.1007/S11263-009-0234-0
Thomas Schultz, Gordon L. Kindlmann, Open-Box Spectral Clustering: Applications to Medical Image Analysis IEEE Transactions on Visualization and Computer Graphics. ,vol. 19, pp. 2100- 2108 ,(2013) , 10.1109/TVCG.2013.181
Yalin Zheng, Man Ting Kwong, Ian J. C. MacCormick, Nicholas A. V. Beare, Simon P. Harding, A Comprehensive Texture Segmentation Framework for Segmentation of Capillary Non-Perfusion Regions in Fundus Fluorescein Angiograms PLoS ONE. ,vol. 9, pp. e93624- ,(2014) , 10.1371/JOURNAL.PONE.0093624
David L. Davies, Donald W. Bouldin, A Cluster Separation Measure IEEE Transactions on Pattern Analysis and Machine Intelligence. ,vol. 1, pp. 224- 227 ,(1979) , 10.1109/TPAMI.1979.4766909
Fanhua Shang, L.C. Jiao, Jiarong Shi, Fei Wang, Maoguo Gong, Fast affinity propagation clustering: A multilevel approach Pattern Recognition. ,vol. 45, pp. 474- 486 ,(2012) , 10.1016/J.PATCOG.2011.04.032