Optimization model of anti-slide pile based on differential evolution algorithm
Anti-slide pile is an effective means of landslide disaster control,but the design concept of anti-slide pile based on trial calculation is still adopted in the engineering field at present,and the design efficiency and accuracy still have room to improve. In this paper,the cluster intelligence algorithm is introduced into the anti-slide pile design,and the design variables,constraint function and objective function are selected reasonably in the anti-slide pile design,and the mathematical model for the optimal design of anti-slip piles is established. On this basis,the global optimization of the design scheme is realized by differential evolution algorithm,and finally the optimization model of anti-slide pile based on differential evolution algorithm is established. Finally,taking a landslide control project in Yan'an City as an example,the optimization scheme design is realized through the compiled optimization calculation software and the interactive interface operation. By comparison with engineering examples,the computational accuracy of the method proposed in this paper is verified. And it verifies the effectiveness and great potential of the proposed method in engineering applications. The method proposed in this paper has favorable theoretical research and engineering application value in the field of anti-slip pile design,and can also provide a reasonable reference for the practical application and theoretical innovation of other geological risk control methods.
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