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                PowerandEnergySystems,2011:560-565.            [16]TIAN Wei.A reviewofsensitivityanalysismethodsin
            [4]DONGWeixin,HULiming,YUYuzhen,etal.Compari          buildingenergyanalysis[J].RenewableandSustainable
                sonbetweenDuncanandChang ’sEBmodelandthegener     EnergyReviews ,2013,20:411-419.
                alizedplasticitymodelintheanalysisofahighearthrock  [17]LIZhanchao.Globalsensitivityanalysisofthestaticper
                filldam[J]. JournalofApplied Mathematics,2013,     formanceofconcretegravitydam from theviewpointof
                2013:709430.                                       structuralhealthmonitoring [J].ArchivesofComputation
            [5] MA Wenliang,LIXiaofen.Finiteelementanalysisfor     alMethodsinEngineering ,2021,28(3):1611-1646.
                homogeneousearthdamofHeisonglinReservoir [J].Ad  [18]LIANGHui,GUOShengshan,TUJin,etal.Seismicstabil
                vancedMaterialsResearch,2012,499:156-159.          itysensitivityanduncertaintyanalysisofahigharchdam
            [6]GUOXiangfeng,DIASD.Krigingbasedreliabilityandsensi  foundationsystem[J].InternationalJournalofStructural
                tivityanalysis—Applicationtothestabilityofanearthdam  StabilityandDynamics,2019,19(7):195006.
                [J].ComputersandGeotechnics,2020,120:103411.   [19]CHENYue,GUChongshi,SHAOChenfei,etal.Param
            [7]WUYingli,JIANGXinwen,FUHua,etal.Threedimen        etersensitivityandinversionanalysisforaconcreteface
                sionalstaticanddynamicanalysesofanasphalt-concrete  rockfilldambasedonCS-BPNN[J].AdvancesinCivil
                coredam[M]//ZHOUAnnan,TAOJunliang,GUXiao          Engineering ,2019:9742961.https://doi.org/10.1155/
                qiang,etal.ProceedingsofGeoShanghai2018Internation  2019/9742961.
                alConference :FundamentalsofSoilBehaviours.Singa  [20]RENJie,ZHANGWenbing,YANGJie.Morrissensitivi
                pore:Springer,2018.                                tyanalysisforhydrothermalcouplingparametersofem
            [8]LIUSihong,WANGLiujiang,WANGZijian,etal.Nu          bankmentdam:Acasestudy[J].MathematicalProblems
                mericalstressdeformationanalysisofcutoffwallinclay  in Engineering,2019:2196578.https://doi.org/10.
                corerockfilldam onthickoverburden[J].WaterScience  1155/2019/219.6578.
                andEngineering,2016,9(3):219-226.              [21]LAKEHALR,DJEMILIL.Studyingtheeffectofavaria
            [9] ZHANG Honghai, GONG Aiming, WANG Chunyan.          tioninthemainparametersonstabilityofhomogeneous
                Stressdeformationnumericalanalysisofclaycorerockfill  earthdamsusingdesignexperiment [J].JournalofWater
                dambasedonDuncan-ChangE-Bmodel[J].Applied          andLandDevelopment,2017,34(1):173-179.
                MechanicsandMaterials ,2013,275-277:1436-1440.  [22]CACUCIDG,IONESCU-BUJORM.Acomparativere
            [10]YAOFuhai,GUANShaoheng,YANGHe,etal.Long            viewofsensitivityanduncertaintyanalysisoflargescale
                 termdeformationanalysisofShuibuyaconcretefacerock  systems-Ⅱ:Statisticalmethods[J].NuclearScience
                 filldambasedonresponsesurfacemethodandimproved    andEngineering ,2017,147(3):204-217.
                 geneticalgorithm[J].WaterScienceandEngineering,  [23]GOLSHANIT,JORJANIE,CHELGANISC,etal.
                 2019,12(3):196-204.                                Modelingandprocessoptimizationformicrobialdesulfu
            [11]KLEPPERO.Multivariateaspectsofmodeluncertaintya    rizationofcoalbyusingatwolevelfullfactorialdesign
                 nalysis :Toolsforsensitivityanalysisandcalibration[J].  [J].InternationalJournalofMiningScienceandTech
                 EcologicalModelling ,1997,83:55-66.                nology ,2013,23(2):261-265.
            [12]RAKOVECO,HILLMC,CLARKMP,etal.Distribu         [24]KADEETHUMT,SALIMZADEHS,NICKHM.Anin
                 tedevaluationoflocalsensitivityanalysis (DELSA),with  vestigationofhydromechanicaleffectonwellproductivity
                 applicationtohydrologicmodels [J].WaterResources  infracturedporousmediausingfullfactorialexperimental
                 Research ,2014,50(1):409-426.                     design [J].JournalofPetroleum ScienceandEngineer
            [13]BORGONOVOE,PLISCHKEE.Sensitivityanalysis:A         ing,2019,181:106233.
                 reviewofrecentadvances[J].EuropeanJournalofOper  [25]ZEm. 71ßìL DOE—&™Þ5e/30lœ
                 ationalResearch,2016,248(3):869-887.              š[J]. ™Ú,2021,50(1):29-33.
            [14]IOOSEB,LEMAITREP.Areviewonglobalsensitivity    [26]© Ç, h ù.DOE ßìL4@°±¾Æ×?òó‡ôÇ
                 analysismethods[M]//DELLINOG,MELONIC.Un          Šlœ[J]. o=&ÈÝt,2017,26(19):2347-2351.
                 certaintymanagementinsimulationoptimizationofcom  [27]©o¨, ~ õ, hkÛ, •. 71ßìL4@°±fLö
                 plexsystems.Boston ,MA:Springer,2015.             ]lœ(^[J]. ¶Là‡6ø,2019,38(3):276-280.
            [15]MARATA,TARANTOLAS.Applicationofglobalsensi    [28]hâ, vP[, ¡o<, •. ßìL4@°±®æÉ
                 tivityanalysisofmodeloutputtobuildingthermalsimula  ë­e 3D?÷ÇÉ?÷!B)o¡[[J]. È66
                 tions [J].BuildingSimulation,2008,1(4):290-302.   ø,2021,56(5):1460-1469.
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