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浙江大学学报(工学版)
J4  2013, Vol. 47 Issue (8): 1486-1492    DOI: 10.3785/j.issn.1008-973X.2013.08.024
    
Painting image classification based on aesthetic style similarity rule
YANG Bing, XU Duan-qing, YANG Xin, ZHAO Lei, TANG Da-wei
Network and Multimedia Lab, Computer Science College, Zhejiang University, Hangzhou, 310027, China
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Abstract  

For the problem of the traditional classification methods that often directly construct descriptors and ignoring the inherent properties of aesthetic style, starting from human brain cognitive mechanisms, we propose to describe the aesthetic style on the basis of the feature vector and similarity principle. We create aesthetic style similarity rule (ASSR) based on similarity principle and deep analysis of the inherent properties of aesthetic style. Follow ASSR, we then quantify style features that are generally accepted in realm of art to build the image self-similarity descriptor. The distance function is used in our method to compute the similarity coefficient between one image to all other images. Finally, the similarity matrix composed of similarity coefficients could be treated as the aesthetic style similarity descriptor for the image, and Adaboost classifier is taken to evaluate the unknown images. The results demonstrate the efficiency of ASSR and our method for the painting image classification with different aesthetic style obtains good performance.

Published: 01 August 2013
CLC:  TP 391.4  
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Cite this article:

YANG Bing, XU Duan-qing, YANG Xin, ZHAO Lei, TANG Da-wei. Painting image classification based on aesthetic style similarity rule. J4, 2013, 47(8): 1486-1492.

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http://www.zjujournals.com/eng/10.3785/j.issn.1008-973X.2013.08.024     OR     http://www.zjujournals.com/eng/Y2013/V47/I8/1486


基于艺术风格相似性规则的绘画图像分类

针对传统分类方法中直接建立描述符描述绘画的艺术风格而忽略艺术风格这一对象本身所具有的属性的问题,从人脑认知机制出发,将艺术风格的描述建立于特征向量及相似性原理的基础之上.算法基于相似性原理,通过挖掘艺术风格自身属性,建立艺术风格相似性规则.在遵守相似性规则的基础上,对艺术领域中普遍认可的风格特征进行量化,建立图像的自相似性描述符,采用距离函数计算出图像与其他所有样本图像之间的相似性系数,将由相似性系数构成的相似性矩阵作为该图像的风格相似性矩阵,采用Adaboost分类器对未知样本做出判断.结果表明艺术风格相似性规则的有效性,在不同艺术风格绘画图像上的分类实验也得到较好的结果.

[1] BOSCH A, ZISSERMAN A, MUOZ X. Scene classification using a hybrid generative/discriminative approach [J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 2008, 30(4): 712-727.

[2] 任建峰,郭雷,李刚.多类支持向量机的自然图像分类[J].西北工业大学学报,2005,23(3): 295-298.

REN Jian-feng,GUO Lei,LI Gang. Improving scene image classification with multi-class SVMs [J].Journal of Northwestern Polytechnical University,2005,23(3): 295-298.

[3] 任桢.图像分类任务的关键技术研究[D].哈尔滨:哈尔滨工程大学,2010.

REN Zhen. Key techniques studying on image classification [D].Harbin: Harbin Engineering University, 2010.

[4] LI C C, CHEN T. Aesthetic visual quality assessment of paintings [J].  IEEE Journal of Selected Topics in Signal Processing, 2009, 3(2): 236-252.

[5] DATTA R, JOSHI D, LI J, et al. Studying aesthetics in photographic images using a computational approach [C]∥ The 6th European Conference on Computer Vision. Dublin: Springer-Verlag London, 2006, 288-301.

[6] MOORTHY A K, OBRADOR P, OLIVER N. Towards computational models of visual aesthetic appeal of consumer videos [C]∥ The 11th European Conference on Computer Vision (ECCV’10). Heraklion: Springer-Netherlands,2010, 6315: 1-14.

[7] LI J, WANG J Z. Studying digital imagery of ancient paintings by mixtures of stochastic models [J]. IEEE Transactions on Image Processing, 2004, 13(3): 340-353.

[8] YELIZAVETA M, SENG T C, RAMESH J. Semi-supervised annotation of brushwork in paintings domain using serial combinations of multiple experts [C]∥ Proceedings of the 14 th annual ACM international conference on Multimedia. New York: ACM Press,2006, 529-538.

[9] KEREN D. Recognizing image “style” and activities in video using local features and nave bayes [J]. Pattern Recognition Letters, 2003, 24(16): 2913-2922.

[10] YOAV F, SCHAPIRE R E. A decision-theoretic generalization of online learning and an application to boosting [J]. Journal of Computer and System Sciences, 1997, 13(55): 119-139.

[11] DRUCKER H, SCHAPIRO R E, SIMARD P. Boosting performance in neural networks [J]. International Journal of Pattern Recognition and Artificial Intelligence, 1993, 7(4): 705-719.

[12] FREUND Y, SCHAPIRE R E. A decision-theoretic generalization of on-line learning and an application to boosting [C]∥ In Proceedings of the Second European Conference on Computational Learning Theory (EuroCOLT’95). Barcelona: Springer, 1995, 23-37.

[13] SCHAPIRE R E. A brief introduction to boosting [C]∥ Proceedings of the 16th International Joint Conference on Artificial Intelligence (IJCAI’99), Stockholm: Morgan Kaufmann Publisher, 1999, 1401-1406.

[14] 黄蓉.论刘松年工笔人物画的艺术风格[D].扬州:扬州大学,2010.

HUANG Rong.The artistic style research on meticulous portrait of Liu Songnian [D].Yangzhou: Yangzhou University,2010.

[15] 孙美君.中国水墨画的设色扩散与风格化绘制研究[D].天津:天津大学,2009.

SUN Mei-jun. Research on the pigments diffusing and stylistic rendering of chinese painting [D].Tianjin: Tianjin University, 2009.

[16] 王先岳.写生与新山水画图式风格的形成[D].北京:中国艺术研究院,2010.

Wang xian-yue. Painting from nature and on the formation o f the schemata style in the new landscape painting [D]. Beijing: Chinese National Academy of Arts, 2010.

[17] VARMA M, ZISSERMAN A. Classifying images of materials: achieving viewpoint and illumination independence [C]∥ The 7th European Conference on Computer Vision (ECCV’02), Copenhagen: Springer, 2002, 255-271.

[18] GEHLER P V, NOWOZIN S. On feature combination for multiclass object classification [C]∥ IEEE International Conference on Computer Vision (ICCV’09), Kyoto: IEEE Computer Society, 2009, 221-228.
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