土钉墙内部稳定性分析禁忌搜索算法
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摘要
基于边坡极限平衡的简化Bishop法,考虑土钉的加固作用,推导了土钉墙安全系数计算公式;然后利用禁忌搜索算法(TSA)对北京某大厦基坑土钉支护结构最危险滑动面的位置及相应最小安全系数进行了搜索。计算结果表明:TSA法的搜索性能要优于简单遗传算法且本文土钉墙简化Bishop法克服了瑞典条分法的不足,具有较高的计算精度。
Firstly,based on the principle of simple Bishop limited equilibrium method and by considering the consolidation of soil-nail,a new computation formula of stability safety factor for the soil-nail wall is presented.Then,the critical slip surface correspondent with its minimal safety factor of a building foundation pit with soil-nail braced structure in Beijing has been carried out by using the Tabu search algorithm(TSGA).The calculation results show that: the efficiency of TSA is better than that of Simple Genetic Algorithm and the simple Bishop method of soil-nailed wall overcomes the deficiency of Swedish slice method and has better computation precision.
Firstly,based on the principle of simple Bishop limited equilibrium method and by considering the consolidation of soil-nail,a new computation formula of stability safety factor for the soil-nail wall is presented.Then,the critical slip surface correspondent with its minimal safety factor of a building foundation pit with soil-nail braced structure in Beijing has been carried out by using the Tabu search algorithm(TSGA).The calculation results show that: the efficiency of TSA is better than that of Simple Genetic Algorithm and the simple Bishop method of soil-nailed wall overcomes the deficiency of Swedish slice method and has better computation precision.
引文
[1]钱家欢,殷宗泽.土工原理与计算(第二版)[M].北京:中国水利水电出版社,1996.
[2]陈昌富.仿生算法及其在边坡和基坑工程中的应用[D].长沙:湖南大学,1999.
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[4]贺可强,王胜利,阳吉宝.运用遗传算法求解土钉支护结构的整体稳定性系数[J].岩土力学,2003,24(3):355-358.
[5]Bishop A W.The use of the slip circle in the stability analysis of slopes[J].Geotechnique,1955,5(1):7-17.
[6]Glover F.Tabu search:partⅠ[J].ORSA Journal on Computing,1989,1:190-206.
[7]Glover F.Tabu search:partⅡ[J].ORSA Journal on Computing,1990,2:4-32.
[8]朱剑锋.岩土边坡稳定性与可靠度分析智能计算方法[D].长沙:湖南大学,2007.
[9]贺可强,阳吉宝.堆积层滑坡的预测预报方法及其防治[M].北京:地震出版社,1996.
[2]陈昌富.仿生算法及其在边坡和基坑工程中的应用[D].长沙:湖南大学,1999.
[3]Glover F.Future paths for integer programming and links to artificial intelligence[J].Computers and OperationsResearch,1986,13:533-549.
[4]贺可强,王胜利,阳吉宝.运用遗传算法求解土钉支护结构的整体稳定性系数[J].岩土力学,2003,24(3):355-358.
[5]Bishop A W.The use of the slip circle in the stability analysis of slopes[J].Geotechnique,1955,5(1):7-17.
[6]Glover F.Tabu search:partⅠ[J].ORSA Journal on Computing,1989,1:190-206.
[7]Glover F.Tabu search:partⅡ[J].ORSA Journal on Computing,1990,2:4-32.
[8]朱剑锋.岩土边坡稳定性与可靠度分析智能计算方法[D].长沙:湖南大学,2007.
[9]贺可强,阳吉宝.堆积层滑坡的预测预报方法及其防治[M].北京:地震出版社,1996.
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