参考文献/References:
[1] SeedHB,TokimatsuK,HarderLF,etal.InfluenceofSPTproceduresinsoilliquefactionresistanceevaluations[J].Jour-nalofGeotechnicalEngineering,1985,111(12):1425-1445.
[2] SeedHB,IdrissIM.Simplifiedprocedureforevaluatingsoilliquefactionpotential[J].JournalofSoilMechanicsandFoundationsDivision,1971,97(9):1249-1273.
[3] ShibataT,TeparaksaW.Evaluationofliquefactionpotentialsofsoilsusingconepenetrationtests[J].SoilsandFounda-tions,1988,28(2):49-60.
[4] RobertsonPK,CampanellaRG.LiquefactionpotentialofsandsusingtheCPT[J].JournalofGeotechnicalEngineer-ing,1985,111(3):384-403.
[5] StarkTD,OlsonSM.LiquefactionresistanceusingCPTandfieldcasehistories[J].JournalofGeotechnicalEngineering,1995,121(12):856-869.
[6] AndrusRD,StokoeKHII.Liquefactionresistanceofsoilsfrom shear-wavevelocity[J].JournalofGeotechnicalandGeoenvironmentalEngineering,2000,126(11):1015-1025.
[7] YoudTL,IdrissIM,AndrusRD,etal.Liquefactionre-sistanceofsoils:summaryreportfromthe1996NCEERand1998NCEER/NSFworkshopsonevaluationofliquefactionresistanceofsoils[J].JournalofGeotechnicalandGeoenvi-ronmentalEngineering,2001,127(10):817-833.
[8] 建筑抗震设计规范:GB50011—2010[S].北京:中国建筑工业出版社,2010.
[9] 王亮,薄景山,李孝波,等.砂土液化判别方法研究若干进展[J].世界地震工程,2017,33(4):141-150.
[10] 冯沛涛.某高层商住楼地基土液化判定及其处理措施[J].水利与建筑工程学报,2014,12(5):216-218.
[11] 张丹青.某建筑场地地基土液化等级的判别[J].水利与建筑工程学报,2009,7(2):78-80.
[12] 王智合.强夯法加固大面积素填土与液化土地基应用研究[J].水利与建筑工程学报,2015,13(2):197-200.
[13] JuangCH,JiangT,AndrusRD.Assessingprobability-basedmethodsforliquefactionpotentialevaluation[J].Jour-nalofGeotechnicaland GeoenvironmentalEngineering,2002,128(7):580-589.
[14] LaiS,ChangW,LinP.Logisticregressionmodelforeval-uatingsoilliquefactionprobabilityusingCPTdata[J].Jour-nalofGeotechnicalandGeoenvironmentalEngineeringAS-CE,2006,132(6):694-704.
[15] CetinKO,DerKiureghianA,SeedRB.Probabilisticmodelsfortheinitiationofseismicsoilliquefaction[J].StructuralSafety,2002,24(1):67-82.
[16] LiaoSSC,VenezianoD,WhitmanRV.Regressionmod-elsforevaluatingliquefactionprobability[J].JournalofGeotechnicalEngineering,1988,114(4):389-411.
[17] GohATC,GohSH.Supportvectormachines:Theiruseingeotechnicalengineeringasillustratedusingseismicliquefactiondata[J].ComputersandGeotechnics,2007,34(5):410-421.
[18] 潘建平,孔宪京,邹德高.基于Logistic回归模型的砂土液化概率评价[J].岩土力学,2008,29(9):2567-2571.
[19] 陈国兴,李方明.基于径向基函数神经网络模型的砂土液化概率判别方法[J].岩土工程学报,2006,28(3):301-305.
[20] 潘翔.基于二值Logistic回归模型的砂土液化指标敏感性分析[J].安全与环境工程,2015,22(3):158-161.
[21] 王军龙.砂土液化等级预测的主成分-Logistic回归模型[J].长江科学院院报,2015,32(9):134-139.
[22] 袁启旺.基于LOGISTIC回归的地基液化评价研究[J].山西建筑,2008,34(2):115-116.
[23] 黄志全,王伟,张瑞琪,等.双向振动下含粘粒砂土液化特性试验研究[J].华北水利水电大学学报(自然科学版),2016,37(3):55-59.
[24] BoulangerRW,IdrissIM.CPTandSPTbasedliquefac-tiontriggeringprocedures,UCD/CGM-14/01[R].Califor-nia:CentreforGeotechnicalModelling,DepartmentofCivilandEnvironmentalEngineering,CollegeofEngineering,U-niversityofCalifornia,Davis,2014:23-32.
[25] IdrissRW BA.CPT-basedliquefactiontriggeringproce-dure[J].JournalofGeotechnicalandGeoenvironmentalEn-gineering,2016,142(2):4015065
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