[1] Lin Liang, Wang Guangrun, Zuo Wangmeng, et al. Cross-domain visual matching via generalized similarity measure and feature learning[J]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 2017,39(6):1089-1102.
[2] Boriah S, Chandola V, Kumar V. Similarity measures for categorical data: A comparative evaluation[C]// Proceedings of 2008 SIAM International Conference on Data Mining. 2008:243-254.
[3] Xie Jierui, Szymanski B, Zaki M. Learning dissimilarities for categorical symbols[C]// The 4th Workshop on Feature Selection in Data Mining. 2010:97-106.
[4] Cheng Victor, Li Chun-hung, Kwok J T, et al. Dissimilarity learning for nominal data[J]. Pattern Recognition, 2004,37(7):1471-1477.
[5] Le Siquang, Ho Tubao. An association-based dissimilarity measure for categorical data[J]. Pattern Recognition Letters, 2005,26(16):2549-2557.
[6] Alamuri M, Surampudi B R, Negi A. A survey of distance/similarity measures for categorical data[C]// 2014 IEEE International Joint Conference on Neural Networks. 2014:1907-1914.
[7] Sparck J K. A statistical interpretation of term specificity and its application in retrieval[J]. Journal of Document, 1972,28(1):11-21.
[8] Wang Yue, Ge Jidong, Zhou Yemao, et al. Topic model based text similarity measure for Chinese judgement document[C]// International Conference of Pioneering Computer Scientists, Engineers and Educators. 2017:42-54.
[9] Burnaby T P. On a method for character weighting a similarity coefficient, employing the concept of information[J]. Mathematical Geology, 1970,2(1):25-38.
[10]Lin Dekang. An information-theoretic definition of similarity[C]// Proceedings of the 15th International Conference on Machine Learning. 1998:296-304.
[11]Stanfill C, Waltz D. Toward memory-based reasoning[J]. Communications of the ACM, 1986,29(12):1213-1228.
[12] Eskin E, Arnold A, Prerau M, et al. A geometric framework for unsupervised anomaly detection: Detecting intrusions in unlabeled data[M]// Applications of Data Mining in Computer Security. Springer, Boston, MA, 2002:77-102.
[13]Cover T, Hart P. Nearest neighbor pattern classification[J]. IEEE Transactions on Information Theory, 1967,13(1):21-27.
[14]Quinlan J R. Induction of decision trees[J]. Machine Learning, 1986,1(1):81-106.
[15]鞠可一,周德群,吴君民. 混合概念格在案例相似性度量中的应用[J]. 控制与决策, 2010,25(7):987-992.
[16]赵亮,刘建辉,王星. 基于Hellinger距离的混合数据集中分类变量相似度分析[J]. 计算机科学, 2016,43(6):280-282.
[17]孙怡帆,李赛. 基于相似度的微博社交网络的社区发现方法[J]. 计算机研究与发展, 2014,51(12):2797-2807.
[18] 陈彦萍,杨威,唐成务,等. 基于语义相似度的数据服务分类方法[J]. 信息技术, 2017(12):93-96. |