在基于阻尼控制的半主动悬架系统模型基础上,设计了悬架系统模糊逻辑控制器。
A fuzzy logic controller was developed for the suspension system, based on a damping-controlled (semi-active) suspension system model.
对带有电流变智能阻尼器的汽车半主动悬架系统设计了一种输出反馈变结构控制器。
An output feedback variable structure controller was designed for automotive semi-active suspension with electro-rheological (er) damper.
仿真分析了多种激励信号下隔振质量的响应及半主动悬架系统在系统参数摄动下的鲁棒特性。
The isolated mass response of many kinds of excitations and the robustness of semi-active suspension system with respect to parameter variations were simulated.
通过座椅悬架实验,比较被动悬架和半主动悬架系统的振动控制效果,验证控制系统的有效性。
The experiments compare the performances of passive seat suspension and semi-active seat suspension, and verify the effectiveness of the designed control system.
基于MR阻尼器的半主动悬架系统主要由MR 阻尼器、弹簧、传感器、控制器及相关辅助电路构成。
In general, a semiactive suspension system based on MR dampersmainly comprises MR dampers, springs, dynamic sensors, semiactive controller andrequired circuits.
仿真结果表明,结合合适的控制算法,采用磁流变阻尼器的半主动悬架系统有效地改善了汽车驾驶平顺性和乘坐舒适性。
The results show that with a proper control algorithm, the semi-active suspension with MR damper can effectively improve the ride comfort of vehicles.
该模糊控制方法可以在线自适应调整模糊控制的有关参数,较好地解决了汽车半主动悬架系统存在的非线性与不确定性问题。
This method of adaptive fuzzy control can tune the parameters of controller on-line. These questions of nonlinear and uncertainties about vehicle semi-active suspension systems are well solved.
综述汽车悬架控制系统的基本类型,半主动控制和主动控制的控制策略。
Reviews the basic types of control system on automobile suspension, the control schemes for semi active and active suspension.
建立了具有4自由度的半汽车模型,研究了汽车悬架系统半主动控制的动态优化方法。
With the 4 degree freedom half vehicle model, dynamic optimal design method of semi active control in automobile suspension is investigated.
结果表明,阻尼优化后的车辆平顺性得到明显改善,为半主动悬架及控制系统的进一步研究奠定了基础。
The ride comfort is improved obviously after the optimization, which provides the basic for further study on semi-active suspensions and control systems.
通过变更振动系统的输出模型和目标函数,课题建立多个基于轮胎动载的半主动悬架的车辆模型。
By changing the output equation and target function of control system, we can establish many semi-active suspension vehicle models.
本文运用模糊系统理论建立半主动悬架模糊动态模型,设计半主动悬架模糊控制系统,并对车辆悬架参数的优化、半主动悬架试验作了进一步的研究和探讨。
In the paper, system modeling and control of semi-active suspension based on fuzzy theory, optimization of suspension parameters, and experiment of semi-active suspension are researched further.
应用半主动座椅悬架系统的关键之一是具有可实时调节的阻尼器。
It is a key using about semi-active seat suspensions that should have real-time damper.
应用半主动座椅悬架系统的关键之一是具有可实时调节的阻尼器。
It is a key using about semi-active seat suspensions that should have real-time damper.
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