1) loss-delay system
损失-迟滞系统
2) hystersis loss
迟滞损失
3) hysteretic system
迟滞系统
1.
The random vibration problem of a hysteretic system excited by colored noise is transformed into that of the extended system, consisting of hysteretic system and the filter, excited by white noise.
首先为随机激励设计了具有较高精度的滤波器 ,把迟滞系统受有色噪声激励的随机振动问题转化为由迟滞系统与滤波器组成的扩阶系统受白噪声激励的随机振动问题 ,然后详细论述了等效线性化法对此问题的具体求解 ,着重推导了高斯随机变量联合矩的递推关系和李亚普诺夫方程解法的实现 ,最后根据数字模拟结果分析了等效线性化法的精度和误差来源 ,给出了迟滞减振系统参数设计的有关建
2.
In order to find out the speciality of the hysteretic system under random excitation, random responses and model parameters of hysteretic system were studied by the method of stochastic equivalent linearization and Mento-Carlo simulation.
迟滞阻尼振动系统的恢复力可分为无记忆和有记忆两部分,本文针对双线性迟滞模型和Bouc-Wen迟滞模型分别推导出随机力激励作用下迟滞系统的等价线性化参数表达式。
4) hysteretic system
滞迟系统
5) hysteretic systems
迟滞系统
1.
The parameter identification of nonlinear hysteretic systems is dealt with in the paper.
研究了非线性迟滞系统的参数识别问题。
6) loss of elastic delay
弹性迟滞损失
补充资料:损失
1.损毁丧失。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条