桂林理工大学学报
桂林理工大學學報
계림리공대학학보
JOURNAL OF GUILIN UNIVERSITY OF TECHNOLOGY
2014年
1期
63-67
,共5页
张紫昭%陈巨鹏%陈凯%崔春雷
張紫昭%陳巨鵬%陳凱%崔春雷
장자소%진거붕%진개%최춘뢰
砂土液化%Bayes判别分析%判识指标%判别模型
砂土液化%Bayes判彆分析%判識指標%判彆模型
사토액화%Bayes판별분석%판식지표%판별모형
sand liquefaction%Bayes discriminant analysis%discrimination index%discrimination model
基于Bayes判别分析理论,在分析影响砂土液化因素的基础上,选取影响地震砂土液化因素的8个实测因子(地震烈度I、震中距L、地下水位dw、砂层埋藏深度ds、标贯击数N63.5、砂土颗粒平均粒径d50、不均匀系数Cu和剪应力比τd/σv )作为砂土地震液化判识指标,以唐山大地震中21组典型的砂土地震液化资料为学习样本,建立了唐山地区砂土地震液化预测的Bayes判别分析模型,并选用其他9组待检样本对判别模型进行验证。结果表明,Bayes判别分析模型预测性能良好,具有预测准确度高、回判估计的误判率低等特点,是解决砂土液化预测问题的有效方法之一。
基于Bayes判彆分析理論,在分析影響砂土液化因素的基礎上,選取影響地震砂土液化因素的8箇實測因子(地震烈度I、震中距L、地下水位dw、砂層埋藏深度ds、標貫擊數N63.5、砂土顆粒平均粒徑d50、不均勻繫數Cu和剪應力比τd/σv )作為砂土地震液化判識指標,以唐山大地震中21組典型的砂土地震液化資料為學習樣本,建立瞭唐山地區砂土地震液化預測的Bayes判彆分析模型,併選用其他9組待檢樣本對判彆模型進行驗證。結果錶明,Bayes判彆分析模型預測性能良好,具有預測準確度高、迴判估計的誤判率低等特點,是解決砂土液化預測問題的有效方法之一。
기우Bayes판별분석이론,재분석영향사토액화인소적기출상,선취영향지진사토액화인소적8개실측인자(지진열도I、진중거L、지하수위dw、사층매장심도ds、표관격수N63.5、사토과립평균립경d50、불균균계수Cu화전응력비τd/σv )작위사토지진액화판식지표,이당산대지진중21조전형적사토지진액화자료위학습양본,건립료당산지구사토지진액화예측적Bayes판별분석모형,병선용기타9조대검양본대판별모형진행험증。결과표명,Bayes판별분석모형예측성능량호,구유예측준학도고、회판고계적오판솔저등특점,시해결사토액화예측문제적유효방법지일。
Based on the principle of Bayes discriminant analysis and the factors influencing the sand liquefac-tion,the model was applied to the prediction of sand liquefaction with eight factors listed as following:seismic intensity,epicenteral distance,groundwater level,sand depth,blow number of standard penetration test,mean granular diameter,coefficient of nonuniformity,ratio of shearing stress to effective overburden stress.With 2 1 groups of typical sandy soil seismic liquefaction data during Tangshan earthquake as samples,Bayes discrimi-nant analysis model of predicting earthquake liquefaction of sandy soil in Tangshan area is established.Then the model is applied to predict the sand liquefaction through other 9 samples.The results show that the prediction Model of Bayes discriminant analysis has excellent performances with high prediction accuracy.It is an efficient method for the prediction of sand liquefaction and could be applied to practical engineering.