摘要
在进行颤振临界状态分析时需要求解高次非线性方程组,为了克服传统解法的缺陷,采用混合萤火虫算法对方程组进行求解。使用双参数优化模型,将桥梁颤振临界状态的求解问题转化为优化问题。为弥补萤火虫算法的不足,在萤火虫算法基础上,将量子遗传算法的量子计算、交叉和变异操作与萤火虫算法相结合,提出一种混合萤火虫算法。最后,通过若干试验对比分析,证实了该优化模型的可靠性及求解方法的有效性。
When performing flutter analysis,high-order strong nonlinear equations need to be solved. For overcoming the difficulties encountered by traditional methods, a hybrid firefly algorithm was used to solve the equations. The solution of the critical flutter state problem was converted to an optimization problem by using a double-parameter optimization model. Therefore the optimization model can be employed to calculate the critical velocity and the critical frequency of two or three degrees of freedom flutter. To compensate shortcoming of the firefly algorithm, a hybrid firefly algorithm was proposed and used for searching the optimal solution of the optimization model. Finally, the reliability and the validity of the optimization model as well as its solution were confirmed by numerical and experimental examples.
出处
《振动与冲击》
EI
CSCD
北大核心
2017年第4期144-150,共7页
Journal of Vibration and Shock
基金
国家高技术研究发展计划(863计划)项目(2008AA11Z104)
国家国际科技合作项目(2011DFA21460)
关键词
颤振
优化模型
量子遗传算法
混合萤火虫算法
最优解
flutter
optimization model
quantum genetic algorithm
hybrid firefly algorithm
the optimal solution
