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A Nonlinear Optimization Technique of Tunnel Construction Based on DE and LSSVM

Author

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  • Xing Jun
  • Jiang Annan
  • Wen Zhiwu
  • Qiu Jingping

Abstract

Tunnel construction is a dynamic controlling system with observability and controllability; the feedback analysis requires identifying geophysics parameters and adjusting supporting parameters, and both of them are optimisation problems. The paper proposed a nonlinear optimization technique based on difference evolution arithmetic (DEA), least square support vector machine (LSSVM), and three dimensional numerical simulation. This method employs support vector machine with optimal architecture trained by the difference evolution arithmetic, instead of the time-consuming finite element analysis. Firstly, the three dimensional numerical simulation is used to create training and testing samples for LSSVM model construction. Then the nonlinear relationship between rock or anchoring parameters and displacement is constructed by support vector machine. Finally, the geophysics and supporting parameters are obtained by DE optimization arithmetic. The technique overcomes the conventional optimization method shortages of expending too much computing time and easily being limited in local optimal solution. This technique was verified by applying it to the feedback analysis of Dalian Metro in China, and the influence of the parameters of LSSVM and DE on the simulation ability of the algorithm was investigated.

Suggested Citation

  • Xing Jun & Jiang Annan & Wen Zhiwu & Qiu Jingping, 2013. "A Nonlinear Optimization Technique of Tunnel Construction Based on DE and LSSVM," Mathematical Problems in Engineering, Hindawi, vol. 2013, pages 1-11, March.
  • Handle: RePEc:hin:jnlmpe:980154
    DOI: 10.1155/2013/980154
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