多元回归模型在基坑坡顶水平位移分析的应用
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摘要
运用拓扑康GTS-332N全站仪建立坐标系统,对大连软件园基坑北侧JKA段进行了桩顶水平位移监测。将影响该基坑坡顶水平位移的主要因素确定为基坑使用时间、开挖深度作为自变量对桩顶水平位移进行了多元回归分析,得出了多元回归方程,通过回归方程的F检验和回归系数t检验表明基坑使用时间和开挖深度对桩顶水平位移的影响是显著的。回归预测方程与实测结果对比表明残差在-0. 45~0. 48之间,具有很好的拟合性,为深基坑桩锚支护安全施工提供了可靠的理论基础。
Topcon GTS-332N total station is adopted to build user coordinate system and horizontal displacement of pile top has been monitored at the north part JKA of Dalian Software Park foundation pit. Using time and excavation depth are determined as the main influencing factors and used as the independent variable,to conduct multiple regression analysis on the horizontal displacement of pile top. The multiple regression equation of horizontal displacement is built up. F-test method checking of the regression equation and t-test method checking of regression coefficient show that using time and excavation depth are extremely significant for horizontal displacement of pile top. Comparisons of regression prediction equation and monitoring results show that residual error is within-0. 45 ~ 0. 48,with fine fitness,which can provide reliable theoretical basis for safety construction of anchor support for deep foundation pit pile.
Topcon GTS-332N total station is adopted to build user coordinate system and horizontal displacement of pile top has been monitored at the north part JKA of Dalian Software Park foundation pit. Using time and excavation depth are determined as the main influencing factors and used as the independent variable,to conduct multiple regression analysis on the horizontal displacement of pile top. The multiple regression equation of horizontal displacement is built up. F-test method checking of the regression equation and t-test method checking of regression coefficient show that using time and excavation depth are extremely significant for horizontal displacement of pile top. Comparisons of regression prediction equation and monitoring results show that residual error is within-0. 45 ~ 0. 48,with fine fitness,which can provide reliable theoretical basis for safety construction of anchor support for deep foundation pit pile.
引文
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[10]Han jiawei,Kamber M. Data Mining[M]. New York:Morgan Kanfmarin Publishers,2001:279-282.
[2]周荣,余群舟,周诚,等.武汉地铁车站深基坑监测项目选择研究[J].工程管理学报,2016(3):72-76.
[3]程鸿群,佘佳雪,袁宁,等.深基坑工程施工过程风险综合评价[J].同济大学学报(自然科学版),2016(3):491-498.
[4]牛发阳,王建波,赵佳,等.深基坑支护方案灰色模糊综合评价[J].青岛理工大学学报,2016(1):27-32.
[5]黄茂松,王卫东,郑刚.软土地下工程与深基坑研究进展[J].土木工程学报,2012(6):146-161.
[6]梅源,胡长明,王雪艳,等.西安地区湿陷性黄土地铁车站深基坑开挖引起的地表及基坑支护桩变形特性[J].中国铁道科学,2016(1):9-16.
[7]付翔宇,杨丽坤,李富荣,等.基坑水平位移监测新方法的探讨与应用———固定方位角—视准线法[J].测绘通报,2016(2):113-115,139.
[8]王智.地铁施工桩顶水平位移监测方法[J].现代城市轨道交通,2011(S1):117-119.
[9]《现代数学手册》编纂委员会.数学手册[M].武汉:华中科技大学出版社,2001.
[10]Han jiawei,Kamber M. Data Mining[M]. New York:Morgan Kanfmarin Publishers,2001:279-282.
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