考虑指标关联分析的软土地基震陷判别逐步判别模型
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摘要
针对软土震陷危害等级判别中存在的问题,选取灰色关联方法和逐步判别方法作为基础模型,提出了一种耦合判别思路,并设计和建立了耦合式软土震陷判别模型。该模型首先对待判样本和参考样本进行指标关联分析;然后根据关联度将震陷等级排序,对参与判别的等级进行筛选;最后将符合条件的样本通过逐步判别分析确定最终震陷类型。为了验证耦合模型的适用性和准确性,对实际样本数据进行建模计算,并与传统模型的判别结果进行了对比分析,取得了较好的评价结果,为软土震陷等级判别提供了一种新的思路。
Coupling model with a few parameters, which is based on grey relational method and stepwise discriminant method, is established to evaluate the regional foundation subsidence in soft soil area. Firstly, discriminant samples and reference samples are analyzed by indicators relations analysis. Secondly, the seismic subsidence grade is sorted according relevance, and the grade participating discriminant is screened. Finally, subsidence grade of eligible samples is determined by stepwise discriminant theory. The applicability and accuracy of the model are proved by instance analysis and the performance is compared with traditional model. The results show that the effect is good and this method provided a new way for evaluating the regional foundation settlement.
Coupling model with a few parameters, which is based on grey relational method and stepwise discriminant method, is established to evaluate the regional foundation subsidence in soft soil area. Firstly, discriminant samples and reference samples are analyzed by indicators relations analysis. Secondly, the seismic subsidence grade is sorted according relevance, and the grade participating discriminant is screened. Finally, subsidence grade of eligible samples is determined by stepwise discriminant theory. The applicability and accuracy of the model are proved by instance analysis and the performance is compared with traditional model. The results show that the effect is good and this method provided a new way for evaluating the regional foundation settlement.
引文
[1] 刘惠珊,张在明.地震区的场地与地基基础[M].北京:中国建筑工业出版社,1994
[2] Lee K L.Seismic Permanent deformation in earth dams[R].School of Engineering and Applied Science,University of California,Los Angeles,California December,1974
[3] 李冬,陈培雄,吕小飞,等.软土地震震陷研究现状综述[J].工程抗震与加固改造,2011,33 (2):130-135Li Dong,Chen Peixiong,Lv Xiaofei,et al.Research progress summarization of soft soil earthquake subsidence[J].Earthquake Resistant Engineering and Retrofitting,2011,33 (2):130-135(in Chinese)
[4] Ishihara K,Koyamachi N,Kasuda K.Strength of a cohesive soil in irregular loading[A].IAEE,1984,1:7-14
[5] 袁晓铭,孙锐,孟上九.软弱地基土上建筑物不均匀震陷机理研究[J].土木工程学报,2004,37 (2):67-77Yuan Xiaoming,Sun Rui,Meng Shangjiu.Research on mechanism for earthquake induced differential settlement of building on soft subsoill [J].China Civil Engineering Journal,2004,37 (2):67-77(in Chinese))
[6] 孟上九,刘汉龙,袁晓铭.塘沽新港地区建筑物不均匀震陷分析[J].河海大学学报,2004,32 (2):175-178Meng Shangjiu,Liu Hanlong,Yuan Xiaoming.Earthquake-induced differential settlement of buildings in Tanggu area[J].Journal of Hohai University,2004,32 (2):175-178(in Chinese)
[7] 王忆,张克绪,谢君斐.地震引起建筑物沉降的简化分析[J].土木工程学报,1992,25 (5):63-70Wang Yi,Zhang Kexu,Xie Junfei.Simplified analysis of earthquake induced settlement of building[J].China Civil Engineering Journal,1992,25 (5):63-70(in Chinese)
[8] 周健,屠洪权,安原一哉.动力荷载作用下软粘土的残余变形计算模式[J].岩土力学,1996,17 (1):54-60Zhou Jian,Tu Hongquan,Yaswhara.A Model for predicting the cyclic behaviour of soft clay[J].Rock and Soil Mechanics,1996,17 (1):54-60(in Chinese)
[9] 刘勇健.人工神经网络原理在建筑物震陷预测中的应用[J].地震研究,2001,24 (3):262-266Liu Yongjian.The application of principle of artificial neural networks to prediction of building settlements due to earthquake liquefaction [J].Journal of Seismological Research,2001,24 (3):262-266(in Chinese)
[10] 汪明武,李丽,金菊良.基于盲数理论的液化等级风险评价模型 [J].岩土工程学报,2010,32 (2):303-307Wang Mingwu,Li Li,Jin Juliang.Application of unascertained number theory to risk evaluation of liquefaction grade [J].Chinese Journal of Geotechnical Engineering,2010,32 (2):303-307(in Chinese)
[11] 高峰,张志镇,高亚楠,等.基于盲数理论的冲击地压危险性评价模型[J].煤炭学报,2010,29(S):28-32Gao Feng,Zhang Zhizhen,Gao Yanan,et al.Evaluation model of rock burst risk in mining based on blind data theory [J].Journal of China Coal Society,2010,29(S):28-32(in Chinese)
[12] 禹建兵,刘浪.不同判别准则下的砂土地震液化势评价方法及应用对比[J].中南大学学报(自然科学版),2013,44(9):3849-3856Yu Jianbin,Liu Lang.Two multiple discriminant methods to evaluate sand seismic liquefaction potential and its comparison[J].Journal of Central South University (Science and Technology),2013,44(9):3849-3856(in Chinese)
[13] 赵志峰,徐卫亚.基于盲数理论的边坡安全稳定分析研究[J].岩土力学,2007,28 (11):2401-2404Zhao Zhifeng,Xu Weiya.Slope stability analysis based on the blind data theory [J].Rock and Soil Mechanics,2007,28 (11):2401-2404(in Chinese)
[14] 黄俊,赵西宁,吴普特.基于通径分析和灰色关联理论的坡面产流产沙影响因子分析[J].四川大学学报(工程科学版),2012,44(5):64-70Huang Jun,Zhao Xining,Wu Pute.Factors analysis of slope runoff and sediment based on path analysis and grey relational analysis[J].Journal of Sichuan University (Engineering Science Edition),2012,44(5):64-70(in Chinese)
[15] 卢文喜,李俊,于福荣,等.逐步判别分析法在筛选水质评价因子中的应用[J].吉林大学学报(地球科学版),2009,39(1):126-130Lu Wenxi,Li Jun,Yu Furong,et al.Application of stepwise discriminant analytical method in screening factor in the water quality evaluation[J].Journal of Jilin University(Earth Science Edition),2009,39(1):126-130(in Chinese)
[16] 李波,苏经宇,马东辉,等.地震砂土液化判别的灰色关联-逐步分析耦合模型[J].中南大学学报(自然科学版),2016,47(1):232-238Li Bo,Su Jingyu,Ma Donghui,et al.Coupled model based on grey relational analysis and stepwise discriminant analysis for seismic liquefaction discrimination of sandy soil[J].Journal of Central South University (Science and Technology),2016,47(1):232-238(in Chinese)
[17] 刘颖,谢君斐.砂土震动液化[M].北京:地震出版社,1984
[18] 李波,苏经宇,刘晓然,等.区域软土地基震陷评估的条件广义方差极小-盲数耦合分析[J].土木工程学报,2014,47(S1):287-292Li Bo,Su Jingyu,Liu Xiaoran,et al.Coupling model based on conditional generalized minimum variance and blind number theory for evaluating the regional foundation subsidence in soft soil area[J].China Civil Engineering Journal,2014,47(S1):287-292(in Chinese)
[2] Lee K L.Seismic Permanent deformation in earth dams[R].School of Engineering and Applied Science,University of California,Los Angeles,California December,1974
[3] 李冬,陈培雄,吕小飞,等.软土地震震陷研究现状综述[J].工程抗震与加固改造,2011,33 (2):130-135Li Dong,Chen Peixiong,Lv Xiaofei,et al.Research progress summarization of soft soil earthquake subsidence[J].Earthquake Resistant Engineering and Retrofitting,2011,33 (2):130-135(in Chinese)
[4] Ishihara K,Koyamachi N,Kasuda K.Strength of a cohesive soil in irregular loading[A].IAEE,1984,1:7-14
[5] 袁晓铭,孙锐,孟上九.软弱地基土上建筑物不均匀震陷机理研究[J].土木工程学报,2004,37 (2):67-77Yuan Xiaoming,Sun Rui,Meng Shangjiu.Research on mechanism for earthquake induced differential settlement of building on soft subsoill [J].China Civil Engineering Journal,2004,37 (2):67-77(in Chinese))
[6] 孟上九,刘汉龙,袁晓铭.塘沽新港地区建筑物不均匀震陷分析[J].河海大学学报,2004,32 (2):175-178Meng Shangjiu,Liu Hanlong,Yuan Xiaoming.Earthquake-induced differential settlement of buildings in Tanggu area[J].Journal of Hohai University,2004,32 (2):175-178(in Chinese)
[7] 王忆,张克绪,谢君斐.地震引起建筑物沉降的简化分析[J].土木工程学报,1992,25 (5):63-70Wang Yi,Zhang Kexu,Xie Junfei.Simplified analysis of earthquake induced settlement of building[J].China Civil Engineering Journal,1992,25 (5):63-70(in Chinese)
[8] 周健,屠洪权,安原一哉.动力荷载作用下软粘土的残余变形计算模式[J].岩土力学,1996,17 (1):54-60Zhou Jian,Tu Hongquan,Yaswhara.A Model for predicting the cyclic behaviour of soft clay[J].Rock and Soil Mechanics,1996,17 (1):54-60(in Chinese)
[9] 刘勇健.人工神经网络原理在建筑物震陷预测中的应用[J].地震研究,2001,24 (3):262-266Liu Yongjian.The application of principle of artificial neural networks to prediction of building settlements due to earthquake liquefaction [J].Journal of Seismological Research,2001,24 (3):262-266(in Chinese)
[10] 汪明武,李丽,金菊良.基于盲数理论的液化等级风险评价模型 [J].岩土工程学报,2010,32 (2):303-307Wang Mingwu,Li Li,Jin Juliang.Application of unascertained number theory to risk evaluation of liquefaction grade [J].Chinese Journal of Geotechnical Engineering,2010,32 (2):303-307(in Chinese)
[11] 高峰,张志镇,高亚楠,等.基于盲数理论的冲击地压危险性评价模型[J].煤炭学报,2010,29(S):28-32Gao Feng,Zhang Zhizhen,Gao Yanan,et al.Evaluation model of rock burst risk in mining based on blind data theory [J].Journal of China Coal Society,2010,29(S):28-32(in Chinese)
[12] 禹建兵,刘浪.不同判别准则下的砂土地震液化势评价方法及应用对比[J].中南大学学报(自然科学版),2013,44(9):3849-3856Yu Jianbin,Liu Lang.Two multiple discriminant methods to evaluate sand seismic liquefaction potential and its comparison[J].Journal of Central South University (Science and Technology),2013,44(9):3849-3856(in Chinese)
[13] 赵志峰,徐卫亚.基于盲数理论的边坡安全稳定分析研究[J].岩土力学,2007,28 (11):2401-2404Zhao Zhifeng,Xu Weiya.Slope stability analysis based on the blind data theory [J].Rock and Soil Mechanics,2007,28 (11):2401-2404(in Chinese)
[14] 黄俊,赵西宁,吴普特.基于通径分析和灰色关联理论的坡面产流产沙影响因子分析[J].四川大学学报(工程科学版),2012,44(5):64-70Huang Jun,Zhao Xining,Wu Pute.Factors analysis of slope runoff and sediment based on path analysis and grey relational analysis[J].Journal of Sichuan University (Engineering Science Edition),2012,44(5):64-70(in Chinese)
[15] 卢文喜,李俊,于福荣,等.逐步判别分析法在筛选水质评价因子中的应用[J].吉林大学学报(地球科学版),2009,39(1):126-130Lu Wenxi,Li Jun,Yu Furong,et al.Application of stepwise discriminant analytical method in screening factor in the water quality evaluation[J].Journal of Jilin University(Earth Science Edition),2009,39(1):126-130(in Chinese)
[16] 李波,苏经宇,马东辉,等.地震砂土液化判别的灰色关联-逐步分析耦合模型[J].中南大学学报(自然科学版),2016,47(1):232-238Li Bo,Su Jingyu,Ma Donghui,et al.Coupled model based on grey relational analysis and stepwise discriminant analysis for seismic liquefaction discrimination of sandy soil[J].Journal of Central South University (Science and Technology),2016,47(1):232-238(in Chinese)
[17] 刘颖,谢君斐.砂土震动液化[M].北京:地震出版社,1984
[18] 李波,苏经宇,刘晓然,等.区域软土地基震陷评估的条件广义方差极小-盲数耦合分析[J].土木工程学报,2014,47(S1):287-292Li Bo,Su Jingyu,Liu Xiaoran,et al.Coupling model based on conditional generalized minimum variance and blind number theory for evaluating the regional foundation subsidence in soft soil area[J].China Civil Engineering Journal,2014,47(S1):287-292(in Chinese)
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