| 云岭隧道围岩监测免疫智能正演反分析 |
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| 引用本文: | 王晓睿,王元汉,刘晓南.云岭隧道围岩监测免疫智能正演反分析[J].地球科学,2008,33(5):699-705. |
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| 作者姓名: | 王晓睿 王元汉 刘晓南 |
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| 作者单位: | 1.华中科技大学土木工程与力学学院, 湖北武汉 430074 |
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| 摘 要: | 深埋长隧道中大变形、高应力、复杂的工程地质环境和长期使用需要使得对隧道围岩的稳定性分析成为决定深埋长大隧道工程成败的关键问题.利用位移反分析法分析确定围岩参数是目前研究的一个重点, 用以处理隧道围岩物理力学参数与量测信息之间的非线性关系, 对围岩二次支护方案进行判断、调整.而人工智能在识别、表达与处理这种复杂的非线性关系方面表现了极强的能力.通过对十漫高速公路云岭隧道围岩变形进行监控测量, 结合生物仿真系统和快速拉格朗日分析软件(FLAC) 进行正演分析, 利用神经网络的高度非线性、网络推理和网络耦合能力, 通过数值分析软件获得神经网络训练所需要的输出向量, 以可自适应调节的免疫算法为搜索工具对参数进行全局空间搜寻, 寻找最佳网络结构, 利用量测信息反分析寻找最佳参数, 得出结果再通过正向计算进行验证.通过智能反演分析, 改进了原勘测资料中的建议值, 调整了支护方案, 得到满意结论.表明本文所提反演分析对隧道围岩稳定性评价及信息化设计的实际意义.
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| 关 键 词: | 云岭隧道 围岩监测 智能 反分析 |
| 收稿时间: | 2008-01-25 |
Back-Analysis for Surrounding Rock Deformation Monitoring of Yunling Tunnel |
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| WANG Xiao-rui,WANG Yuan-han,LIU Xiao-nan.Back-Analysis for Surrounding Rock Deformation Monitoring of Yunling Tunnel[J].Earth Science-Journal of China University of Geosciences,2008,33(5):699-705. |
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| Authors: | WANG Xiao-rui WANG Yuan-han LIU Xiao-nan |
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| Abstract: | Taking into account of complicated geological environment, large deformation, high stress and long-time use, stability analysis for surrounding rock is very important for the deep, long and wide tunnel engineering. Defining parameters by displacement back analysis has been the focus of current study. This method can be used to deal with the complicated non-linear relationship between the parameters of surrounding rock and the measuring information, and to judge and adjust the scheme of second support, while artificial Intelligence are adept in identification, representation and management of the non-linear relationship. The paper, through deformation monitoring for surrounding rock of Yunling tunnel of Shi-Man highway, combined the system of biologic emulation and the software of fast lagrangian analysis of continua (FLAC) to conduct direct analysis, took the advantage of the high nonlinearity, good reasoning and integration of neural network and obtained output vector by data-analysis software. Then we took adaptive immunity algorithm as searching tool to look for the best network structure for parameters in all room, searched for the best parameters with back analysis according information gained by measuring practically. Finally, direct calculation came out the results. This back analysis, improved the primary parameters of physical and mechanical parameters of tunnel surrounding rock, adjusted the scheme of support and obtained satisfied conclusion. The research results show that the back analysis proposed in this paper is of practical significance to the stability analysis of the tunnel surrounding rock and to informational design. |
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| Keywords: | Yunling tunnel surrounding rock deformation monitoring artificial intelligence back analysis |
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