Piezoelectric self-sensing actuator can be applied in active vibration control.
结构振动主动控制可以采用压电自感知执行器。
Actuator optimal placement is an important problem of active vibration control.
作动器优化布置是振动主动控制中的一个重要问题。
SPWM active vibration control system with electromagnetic actuator was designed.
开发了一种采用电磁作动器的SPWM振动主动控制系统。
Fuzzy active vibration control based on active air bearing actuator is presented.
提出基于主动空气轴承作动器的溜板模糊主动振动控制。
A SPWM active vibration control system with electromagnetic actuator was designed.
开发了一种采用电磁作动器的SPWM振动主动控制系统。
Active vibration control for cantilevered rectangle plate is studied in this paper.
对挠性悬臂矩形板的主动振动控制进行了研究。
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。
The technology of active vibration control is one of the presently studying hotspots.
主动控制技术是目前研究的热点之一。
The research of the control law is a very important aspect of the active vibration control.
而控制策略即控制律设计方法的研究是整个振动主动控制领域中的一个很重要的方面。
Active vibration control using piezoelectric materials is a focus in the engineering research field.
利用压电材料进行振动主动控制已成为工程领域中的研究热点。
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。
A high performance electromagnetic counter-force actuator is designed for engine active vibration control system.
针对发动机振动主动控制系统设计了一种高性能电磁反力作动器。
Therefore, the disorder must be considered seriously in active vibration control of weak coupling antenna structures.
在进行此种结构的振动主动控制时必须考虑到结构失谐的影响。
Magnetorheological fluid (MRF) damper is a new kind of smart damper and an ideal device for semi-active vibration control.
磁流变液耗能器是新一代智能型耗能器,是实现半主动振动控制的理想元件。
The present work lays a foundation for its application in the semi-active vibration control of vehicle suspension systems.
通过深入分析该型减振器的磁场分布,为其在车辆悬挂系统半主动控制中的应用奠定了基础。
Finally, a hybrid active vibration control approach is developed by synthesizing the modal control and wave control methods.
最后在模态控制和波动控制的研究基础上,提出基于波动控制和模态控制的复合控制方法。
It features SHOCKS - Active vibration Control which significantly reduces vibration and increases user comfort and productivity.
它的特点冲击主动振动控制,这大大减少了振动和增加用户的舒适性和生产力。
In this paper an active vibration control system of 2d flexible plate is presented by using piezoelectric sensors and actuators.
本文采用压电陶瓷作为传感器和执行器,对二维柔性板的振动抑制进行了实验研究。
Vibration control, including passive vibration control and active vibration control, is designed to suppress nuisance vibration.
振动控制包括被动和主动振动控制,主要用于减少有害振动。
In this paper, a new method is proposed to control the piezoelectric structure by integrated passive and active vibration control.
提出一种新的方法对压电结构进行一体化振动控制。
This paper applies the optimal pole assignment compound law to study the active vibration control of the elastic linkage mechanisms.
针对电液伺服控制的主动混合滑动轴承,研究了基于最优极点配置的转子振动控制方法和策略。
The reason why active vibration control of the rotors must be discussed based on the governing equations with unbalance is described.
阐述了研究转子振动主动控制必须基于它的同步进动方程的理由;
The optimal placement of sensors and actuators in this active vibration control of elastic linkage mechanisms is studied in this paper.
对机构振动主动控制中作动器和传感器位置的优化问题进行了研究。
Active vibration control for piezoelectric intelligent structures is an important task in the field of engineering structural research.
随机压电智能结构振动主动控制是目前结构动力设计与控制研究领域中的一个重要的崭新课题。
The results show that there is obvious vibration reduction for the engine, and the design of active vibration control system is feasible.
结果表明发动机振动衰减明显,该振动主动控制系统的设计是可行的。
The sizes of time-delay certainly will be influence on the structural energy and responses of active vibration control of frame structures.
在结构振动主动控制中,时滞的大小对结构控制能量和响应均产生影响。
The research is concentrated on the modeling analysis and active vibration control for piezoelectric flexible structures in this dissertation.
本文以压电智能柔性结构为研究对象,对其模型的建立以及振动主动控制问题进行了全面而系统的研究;
Finally, the problem of active vibration control for the piezoelectric intelligent beam structure is studied under the PD negative feedback control.
最后应用PD负反馈控制律,对结构进行了振动主动控制。
Piezoelectric sensors and actuators are adhered to the base material directly, and compose the active vibration control system along with the single chip.
压电传感器和驱动器直接粘贴在母体材料上,和单片机控制系统一起构成了压电式主动减振智能结构。
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。
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