A design procedure for MR smart damping isolation scheme for a platform structure is presented, and a design method for practical engineering using MR damper is given.
目的研究了利用主动变阻尼控制系统优化方法设计磁流变智能阻尼隔振平台结构,为实际工程利用磁流变阻尼器为结构减振设计提供方法。
The calculation results indicate that the semi-active control by using the MR damper can effectively control the seismic earthquake of the earthquake isolation single pile platform.
数值计算结果表明,磁流变阻尼器可以有效地控制隔震独桩平台在地震作用下的位移反应。
The vehicle models are analyzed to study the vibration attenuation performance of the MR-damper using the semi-active force tracking PI control algorithm.
汽车模型用来研究力跟踪PI控制算法和MR阻尼器对车辆的振动抑制性能。
By using MR technology, MR damper, which has many notable advantages such as continuously controllable resistance and strong ability to consume kinetic energy, is widely used in many fields.
基于磁流变技术的阻尼器由于有耗能能力强、阻尼力连续可调的优点已被广泛应用于众多领域。
The paper presents a novel train of thoughts to approach to the inverse model of the MR damper by using the universal approximation of a kind of fuzzy system.
考虑到某些模糊系统的万能逼近能力,本文提出用模糊系统来逼近磁流变阻尼器逆模型的新思路。
A forward model and an inverse model of a MR damper were established by using BP neural network.
采用BP神经网络,建立了磁流变阻尼器的正向模型和逆向模型。
The results of an example indicate that the MR damper using semi-active control algorithm can efficiently reduce the structural responses induced by earthquakes.
计算实例结果表明,采用磁流变阻尼器对结构进行半主动控制能有效地减小结构的地震反应。
The numerical simulation results show that the semi-active suspension with MR damper using NN strategy is superior to those with traditional control or without any control.
半主动悬架的数值仿真结果表明,磁流变阻尼器半主动悬架的减振效果明显优于被动悬架以及其他控制方式和阻尼调节方式。
An approach that can effectively solve the inherent highly nonlinear dynamics problem of magnetorheological (MR) damper is proposed by using adaptive neuro-fuzzy inference system (ANFIS) technique.
提出一种利用自适应神经模糊推理系统(ANF IS)技术有效解决磁流变(MR)阻尼器所固有的高度非线性动特性问题的方法。
A control principle of intelligent lower limb prosthesis using magnetorheological (MR) fluid damper is expounded.
阐述了一种磁流变液阻尼器控制的智能假腿摆动相控制原理。
Using the force-velocity characteristics of the MR damper, the recoil dynamic equation of the 25mm gun is solved, and the recoil velocity and recoil displacement of the gun are obtained.
运用火炮的后坐运动方程,计算了不同磁流体特性指数下,火炮的后坐位移和后坐速度。
Using the force-velocity characteristics of the MR damper, the recoil dynamic equation of the 25mm gun is solved, and the recoil velocity and recoil displacement of the gun are obtained.
运用火炮的后坐运动方程,计算了不同磁流体特性指数下,火炮的后坐位移和后坐速度。
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