Structure vibration control is of great importance for the melioration of spacecraft dynamic property.
结构系统的振动控制是改善航天器动态特性的重要途径。
Structure vibration control has offered a kind of effectual method for aseismatic design of the structure.
结构振动控制理论为桥梁结构的抗震设计提供了一套行之有效的方法。
The arrangement of smart damper in tall building is a very important question for structure vibration control.
在高层建筑结构振动控制中,阻尼器的配置是一个十分重要的问题。
It combines the advantages of active control and passive damping and reveals great potential applications on structure vibration control.
它是一种典型的主、被动一体化振动控制方法,在结构振动控制方面展示了极其广阔的应用前景。
As the effective and possible method reducing earthquake hazards, Structure Vibration Control technology can solve this problem very well.
结构振动控制技术作为减轻地震灾害的有效可行的方法可以较好的解决该问题。
And the effectiveness of vicious dampers for structure vibration control on structural internal force, deformation and comfort problem is confirmed.
分析验证了粘滞阻尼器对该类结构内力、变形及舒适度的控制作用。
The numerical simulation results show that it have obvious effects on structure vibration controls using this control strategy under different input forces.
结果表明不同的激励输入下,应用该控制方法均有较明显的减振抗冲效果。
In this dissertation, theoretical and numerical simulation studies have been conducted about structure vibration control with MR dampers, wire rope isolators and neural network PID control strategy.
本文利用神经网络PID控制算法,对使用磁流变阻尼器和钢丝绳减振器的舰用智能减振抗冲元件进行了理论和仿真研究。
Active vibration control for space truss structure becomes recently the hotspot in field of vibration control.
空间桁架结构的振动主动控制目前已成为振动控制领域研究的热点。
The active vibration control is one of important division of intelligent structure.
智能结构振动控制是智能结构研究的重点之一。
Structure installed with MR damper to control its vibration is widely applied, and its good control effect is proved in time-history analysis.
利用MR阻尼器进行结构振动控制已得到广泛应用,并在时程分析中证明了其良好的减振效果。
The vibration control for piezoelectric smart structure is studied.
研究了压电智能结构振动控制问题。
With taking into account some uncertainty factors, the vibration control model of piezoelectricity intelligent beam structure is founded.
在此基础上,考虑模型的不确定性因素,建立了不确定压电智能梁结构的振动控制模型。
The vibration of nonlinear structure is difficult to control precisely by means of linear control theory. A method that combines neural networks with inverse system theory is proposed.
针对非线性结构振动控制难以用线性控制方法精确控制的情况,提出神经网络离散逆系统方法。
The Side tuned mass damper (STMD) has been used more often in control of structure vibration, but its controllable frequency range is relatively narrow.
单频调谐质量阻尼器已被较多地用于结构振动控制中,但是它的被控频带比较窄。
A method of optimum design on active vibration control system of piezoelectric smart structure using finite element analysis software ANSYS was introduced.
介绍了利用有限元分析软件ANSYS,对压电智能结构的主动振动控制系统进行优化设计的方法。
Now the researches of piezoelectric structure are mainly vibration control and deformation control.
目前,对压电结构的研究主要集中在振动控制和变形控制。
In addition, the author introduces in detail several structural control methods to prevent vibration effect acted on highrise steel structure building caused by wind force.
此外,文中对国内外高层结构建筑,为抵抗风力引起的振动影响而采用的结构控制方法,作了较细的介绍。
So the technology of vibration control of this kind structure is abroad attention by people in the field of vibration engineer.
因此该类结构的振动主动控制技术近年来成为国内外振动工程领域广泛关注的一个问题。
A new pattern of structures, combined isolation structure, was presented, and its vibration and control equations were derived.
提出了一种新的结构体系———组合隔震结构体系,并推导了振动及控制方程。
By the analysis of the system structure, the main control system and the electromagnetic vibration feeding control system are designed and implemented.
经过对系统结构的分析,设计并实现了系统的主控制系统和电磁振动给料控制系统。
In this paper, the research of structural dynamic analysis, the optimization of active bars placement and the active vibration control for piezoelectric structure are studied.
本文针对随机参数压电智能桁架结构开展了结构动力分析、主动杆优化配置和结构振动主动控制研究。
The unified differential equation of structure vibration and control systems is studied in the paper.
本文研究了结构振动及其控制系统差分方程统一模式的建立问题。
The vibration control of civil structures such as Bridges induced by the external excitation is a new area of research, and also an important way to improve the safety and durability of the structure.
对桥梁等大型土建结构在外扰作用下的振动实施控制是目前的一个研究热点,也是提高结构安全性与耐久性的一条重要途径。
The hybrid vibration control is to apply both the active and passive vibration control to the same controlled structure in order to take full advantage of them and obtain the optimal isolation effect.
混合振动控制是将主动振动控制和被动振动控制同时应用于被控结构,充分利用它们各自的优点,达到最佳的隔振效果。
The amount of control energy has become a bottleneck of its extensive application in the research of structure vibration active control.
在结构振动主动控制的研究中,控制能量是限制其广泛应用的瓶颈。
Adjacent structures are linked to compose the combined multi-units structure as wall as its vibration control system. The vibration and control equations are derived.
将有条件的相邻结构组合在一起,组成多单体组合结构体系,推导了其振动控制方程。
The motor-cable device was modified so that the optimal control was realized by passive control, with less energy used for the space structure vibration attenuation.
通过简单改造的电机拉索结构,该最优控制能采用无需耗能的被动控制方式实现,为航天结构振动抑制节省控制能量。
Control experiments are conducted on a space truss structure to show that the presented method is very effective in damping vibration response of the structure.
通过一个空间桁架结构的振动阻尼控制实验,结果表明该控制方法是有效的。
Control experiments are conducted on a space truss structure to show that the presented method is very effective in damping vibration response of the structure.
通过一个空间桁架结构的振动阻尼控制实验,结果表明该控制方法是有效的。
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