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引用次数: 1
摘要
为了提高粒子群算法的性能,基于粒子的空间密度特征体现了粒子群的收敛速度和全局寻优能力,提出了一种改进的粒子群算法CDPSO (Colony Density Particle Swarm Optimization)。通过采用基于密度因子的动态惯性系数和加速度系数,实现了一种高效的全局搜索粒子群算法。为了方便地应用于地下工程设计,提出了一种将CDPSO与地下工程辅助设计软件FLAC进行耦合的新方法。CDPSO-FLAC耦合方法通过将CDPSO算法嵌入到FLAC计算核中,实现了优化搜索与工程安全计算的协同。该方法已成功应用于西北某隧道的支护设计中。
Modified PSO-FLAC Coupling Optimum Method and Application in Underground Engineering Design
To improve the performance of PSO (Particle Swarm Optimization), a modified algorithm named CDPSO (Colony Density Particle Swarm Optimization) is presented based on the comprehension that the space density character of particles embodies the convergence speed and global optimization ability of particle swarm. By the way of adopting dynamic nonconforming inertia coefficient and acceleration coefficient according to density factor, a high efficient global search PSO algorithm is achieved. For the purpose of application in underground engineering design conveniently, a new method of coupling CDPSO and FLAC, an excellent aided design software in underground engineering, is put forward. The CDPSO-FLAC coupling method implements the cooperation between optimization searching and safety calculation of engineering by embedding the CDPSO algorithm into computational kernel of FLAC. The method is used successfully in the support design of a northwest tunnel in China.
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