A. Labetoulle , S. Missoum , E. Gourdon , A. Ture Savadkoohi
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引用次数: 0
摘要
本文考虑了具有随时间变化的刚度的非线性能量汇(NES)的随机优化问题。NES 与主系统线性耦合。优化的目的是找到 NES 的刚度特性,使主系统速度的期望值最小,同时考虑激励振幅和频率的统计分布。结果表明,系统的响应对不确定性非常敏感,甚至会表现出不连续的行为。这对优化来说是一个重大障碍,而时间积分可能带来的巨大计算成本已经阻碍了优化。为了解决对不确定性的高敏感性问题并减轻计算负担,我们采用了一种专门的基于代理的随机优化算法。具体来说,该方法使用克里金(Kriging)代用指标,这些代用指标是在无监督的情况下识别响应不连续性产生的集群而建立的。对具有和不具有随时间变化的刚度的最佳非线性吸收器的效率进行了比较和讨论。
Stochastic optimization of targeted energy transfer with time-dependent cubic nonlinearity
The stochastic optimization of a nonlinear energy sink (NES) with a time-dependent stiffness is considered. The NES is linearly coupled to a main system. The optimization aims to find the stiffness properties of the NES that minimize the expected value of the velocity of the main system while accounting for the statistical distributions of the excitation amplitude and frequency. It is shown that the system’s responses are highly sensitive to uncertainty and can even exhibit a discontinuous behavior. This represents a major hurdle for the optimization, which is already hampered by the potentially large computational cost associated with the time integrations. To tackle the high-sensitivity to uncertainties and reduce the computational burden, a dedicated surrogate-based stochastic optimization algorithm is used. Specifically, the approach uses Kriging surrogates built from the unsupervised identification of clusters resulting from response discontinuities. Comparisons between efficiencies of optimal nonlinear absorbers with and without time-dependent stiffness are performed and discussed.
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