The paper puts forward a method of coupling active control for the large flexible space structures (LFSS).
本文针对大型柔性空间结构(LFSS)的主动控制问题,提出耦合主动控制的方法。
The technology of smart structures is significant for the vibration control of large flexible space structures.
智能结构技术对空间大型柔性结构的振动控制问题具有重要意义。
Vibration control using piezoelectric materials for large flexible space structures had attracted significant attention.
应用压电材料实现大型柔性空间结构的振动控制引起了广泛关注。
The results of experiments indicated that the control strategy was correct and effective in suppressing the low frequency and large amplitude vibration of flexible space structures.
实验研究结果表明,该控制方案对空间柔性结构的低频大幅振动有很好的控制效果。
A decentralized variable-structure control for a class of nonlinear uncertain large-scale systems is presented. The presented control approach is applied to uncertain large flexible space structures.
提出了一种适用于一类不确定大系统的分散变结构控制方法,并将该方法用于柔性空间结构的控制系统设计中。
An inorbit identification vibration control method for flexible space structures was developed in which the dynamics parameters are identified using the eigensystem realization algorithm (ERA) method.
该方法运用特征系统实现算法辨识得到系统的动力学参数,然后利用辨识得到的参数设计最优控制器,抑制结构的振动。
The paper discussed the simulation experiment of active vibration control method of flexible space intelligent truss structures with acceleration measurements.
在只获得加速度的情况下,针对空间柔性智能桁架结构,进行了主动控制方法的实时仿真实验。
Tensioned membrane structures is made of soft fabric and clenched by flexible cables or rigid supports to produce stiffness and cover a large space.
张力膜结构是一种以性能优良的柔性织物为材料,利用柔性钢索或刚性支承结构将膜面绷紧,从而具有一定刚度、能覆盖大空间的结构体系。
The research of the control theory of large space flexible structures is of theoretical and practical importance, and it can provide scientific basis for engineering applications.
本项目以航天等领域中大型柔性结构控制为背景,具有重要的理论意义并能为实际的工程系统提供理论依据。
These challenges include following: (1) Dynamics ane control of space flexible structures;
这些挑战包括:①挠性空间结构动力学和控制;
In this paper, a new data structure of graph, double list, is presented. It is more flexible than other data structures of graph and shows better time and space complexity in graph algorithms.
本文提出了图的一种双链式存储结构,比以往的图的链式存储结构有更好的灵活性,并在图的各种算法的实现上显示了较好的时空复杂性,具有其它存储结构所不具备的各种优点。
In this paper, a new data structure of graph, double list, is presented. It is more flexible than other data structures of graph and shows better time and space complexity in graph algorithms.
本文提出了图的一种双链式存储结构,比以往的图的链式存储结构有更好的灵活性,并在图的各种算法的实现上显示了较好的时空复杂性,具有其它存储结构所不具备的各种优点。
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