岩体结构面非典型数据集的优势组提取方法

doi:10.13722/j.cnki.jrme.2015.1177

摘要
图/表
参考文献(19)
相关文章 (15)

全文: PDF (5926 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要

岩体结构面产状的随机性导致现场实际测得岩体结构面数据往往包含大量不属于优势组的组间数据，造成数据集的非典型和优势组提取的困难，故提出一种基于截断法的模糊C均值聚类优势组提取方法，该方法具有组间数据剔除机制。人工算例表明，提出的方法在非典型数据集的优势组提取中较传统的FCM法具有明显优势，不仅剔除了组间数据，而且能够保证参与样本处于较高的比例，优势组产状的计算精度更高。同时，比较不同距离函数和聚类中心算法在聚类中的表现，选取适合结构面非典型数据集聚类的参数。将该方法和优化参数应用到某金矿围岩结构面分类中，成功的剔除了数组间数据，实现了在岩体结构面非典型数据集中的优势组提取。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	刘恺
	李启月
	李夕兵
	王泽伟

关键词 ：岩石力学, 岩体结构面, 非典型数据集, 模糊C均值聚类, 距离函数, 聚类中心算法, 截断法

Abstract：

The occurrence randomness of rock joints leads to generating large amounts of datum that do not belong to any dominant group in the practical datasets. This consequently causes the atypia of the data sets and the difficulty in determining dominant occurrences. In this study，A FCM-based dominant group determining method is developed，and a cut-back method is adopted to eliminate the influence of the data out of the dominant groups. Synthetic tests show that the suggested method is superior to the traditional FCM method for extracting dominant occurrences from atypical data sets. This method can not only eliminate unexpected data but also be able to obtain a high proportion of valid data and accurate dominant occurrences. Then optimal parameters for atypical data sets were obtained by comparing the performances of different distance functions with the cluster center expressions. A practical application of this method to a gold mine shows that the suggested method and the optimized parameters perform well in determining dominant rock joint groups from atypical data sets.

Key words： rock mechanics rock joints atypical data sets fuzzy C-mean clustering distance function clustering center algorithm cut-back method

引用本文:

刘恺，李启月，李夕兵，王泽伟. 岩体结构面非典型数据集的优势组提取方法[J]. 岩石力学与工程学报, 2017, 36(S2): 4018-4024.
LIU Kai，LI Qiyue，LI Xibing，WANG Zewei. A dominant group determination method for atypical data sets of rock joint occurrences. , 2017, 36(S2): 4018-4024.

链接本文:

https://rockmech.whrsm.ac.cn/CN/10.13722/j.cnki.jrme.2015.1177 或 https://rockmech.whrsm.ac.cn/CN/Y2017/V36/IS2/4018

[1]	赵文. 岩石力学[M]. 长沙：中南大学出版社，2010：55-56. (ZHAO Wen. Rock mechanics[M].Changsha：Central South University，2010：55-56.(in Chinese))
[2]	张奇，王清，阙金生，等. 基于凝聚层次聚类分析法的岩体随机结构面产状优势分组[J]. 岩土工程学报，2014，36(8)：1432- 1437.(ZHANG Qi，WANG Qing，QUE Jinsheng，et al. Dominant partitioning of discontinuities of rock masses based on AGNES[J]. Chinese Journal of Geotechnical Engineering，2014，36(8)：1432-1437.(in Chinese))
[3]	卢波，丁秀丽，邬爱清. 岩体随机不连续面产状数据划分方法研究[J]. 岩石力学与工程学报，2007，26(9)：1809-1816.(LU Bo，DING Xiuli，WU Aiqing. Study on method of orientation data partitioning of randomly distributed discontinuities of rocks[J]. Chinese Journal of Rock Mechanics and Engineering，2007，26(9)：1809-1816.(in Chinese))
[4]	范雷，王亮青，唐辉明. 节理岩体结构面产状的动态聚类分析[J]. 岩土力学，2007，28(11)：2405-2408.(FAN Lei，WANG Liangqing，TANG Huiming. Dynamic cluster analysis of discontinuity orientations of jointed rock mass[J]. Rock and Soil Mechanics，2007，28(11)：2405-2408.(in Chinese))
[5]	HAMMAH R E，CURRAN J H. Fuzzy cluster algorithm for the automatic identification of joint sets[J]. InternationalJournal of Rock Mechanics and Mining Sciences，1998，35(7)：889-905.
[6]	XU L M，CHEN J P，WANG Q，et al. Fuzzy C-means cluster analysis based on mutative scale chaos optimization algorithm for the grouping of discontinuity sets[J]. Rock Mechanics and Rock Engineering，2013，46(1)：189-198.
[7]	蔡美峰，王鹏，赵奎，等. 基于遗传算法的岩体结构面的模糊C均值聚类方法[J]. 岩石力学与工程学，2005，24(3)：371-376.(CAI Meifeng，WANG Peng，ZHAO Kui，et al. Fuzzy C-means cluster analysis based on genetic algorithm for automatic identification of joint sets[J]. Chinese Journal of Rock Mechanics and Engineering，2005，24(3)：371-376.(in Chinese))
[8]	王鹏，赵学亮，万林海，等. 基于GA和FCM的岩体结构面的混合聚类方法[J]. 北京科技大学学报，2004，26(3)：227-232.(WANG Peng，ZHAO Xueliang，WAN Linhai，et al. Hybrid cluster analysis method based on GA and FCM for automatically identifying joint sets[J]. Journal of University of Science and Technology Beijing，2004，26(3)：227-232.(in Chinese))
[9]	宋金龙，黄润秋，裴向军. 基于粒子群算法的岩体结构面产状模糊C均值聚类分析[J]. 工程地质学报，2012，20(4)：591-598.(SONG Jinlong，HUANG Runqiu，PEI Xiangjun. Particle swarm optimization algorithm based fuzzy C-means cluster analysis for discontinuities occurrence in rock mass[J]. Journal of Engineering Geology，2012，20(4)：591-598.(in Chinese))
[10]	RUSPINI E H. Numerical methods for fuzzy clustering[J]. Information Sciences，1970，2(3)：319-350.
[11]	DUNN J C. A fuzzy relative of the ISODATA process and its use in detecting compact well -separated cluster[J]. Journal of Cybernetics，1973，3(3)：32-57.
[12]	BEZDEK J C，EHRLICH R，FULL W. The fuzzy C-means clustering algorithm[J]. Computers Geosciences，1984，10(2)：191-203.
[13]	PALN R，BEZDEKJ C. On cluster validity for the fuzzy C-means model[J].IEEE Transactions onFuzzy Systems，1995，3(3)：370-379.
[14]	XIEX L，BENIG. A validity measure for fuzzy clustering[J]. IEEE Transactions onPattern Analysis and Machine Intelligence，1991，8(13)：841-847.
[15]	宋腾蛟，陈剑平，张文，等. 基于萤火虫算法的岩体结构面优势产状聚类分析[J]. 东北大学学报：自然科学版，2015，36(2)：284-287.(SONG Tengjiao，CHEN Jianping，ZHANG Wen，et al. Clustering analysis of dominative attitudes of rock mass structural plane based on firefly algorithm[J]. Journal of Northeastern University：Natural Science，2015，36(2)：284-287.(in Chinese))
[16]	邓继辉，陈柏林，吴小宁，等. 岩体结构面产状的自组织聚类分析[J]. 长江科学院学报，2011，28(3)：50-53.(DENG Jihui，CHEN Bolin，WU Xiaoning，et al. Self-organizing clustering analysis for discontinuities occurrence[J]. Journal of Yangtze River Science Research Institute，2011，28(3)：50-53.(in Chinese))
[17]	LI X B，WANG Z W，PENG K，et al. Ant colony ATTA clustering algorithm of rock mass structural plane in groups[J]. Journal of Central South University，2014，21(2)：709-714.
[18]	修国林，李国清，彭康，等. 基于模糊C均值聚类和图形技术的结构面产状分析方法[J]. 工程科学学报，2015，37(6)：693-699.(XIU Guolin，LI Guoqing，PENG Kang，et al. FCM and graphics technique based method for discontinuities occurrence analysis[J]. Chinese Journal of Engineering，2015，37(6)：693-699.(in Chinese))
[19]	ROUSSEEUW P J. Silhouettes：A graphical aid to the interpretation and validation of cluster analysis[J]. Comp App Math，1987，20：53-65.