The active suspension system gives the car a very smooth ride.
活动的悬挂系统使汽车行驶起来非常平稳。
Active Suspension; Skyhook damper; Feedback linearization; Sliding mode control;
主动悬架;天棚阻尼器;反馈线性化;滑模控制;
This new pivot location results in a bike with the most active suspension under braking.
这一新的避震轴定位给自行车带来了制动条件下最积极的避震效果。
The integrated control of the active suspension system and electric power steering system is studied.
研究了主动悬架和电动助力转向的集成控制问题。
The active suspension system and the electric power steering system are two important subsystems of the vehicle.
汽车主动悬架和电动助力转向系统是汽车的两个重要的子系统。
A feedforward and feedback linear quadratic optimal control problem of vehicle active suspension systems is considered.
研究汽车主动悬架系统的线性二次型前馈反馈最优控制问题。
Reviews the basic types of control system on automobile suspension, the control schemes for semi active and active suspension.
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。
The dynamic performance of traditional nonlinear spring suspension, nonlinear suspension and semi-active suspension is studied.
详细研究了传统非线性弹簧悬架、半主动悬架和非线性悬架的动态特性。
Correspondingly, an electrical active suspension configuration is proposed, and its working principle and structure are described.
相应地,提出了一种电动主动悬架,并就其工作原理及结构方案进行了描述。
The active suspension and electric power steering integrated control system indeed improves the vehicle handling and ride comfort.
主动悬架和电动助力转向集成控制系统能有效地提高车辆操纵轻便性、行驶平顺性。
By changing the output equation and target function of control system, we can establish many semi-active suspension vehicle models.
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。
The result shows that the active suspension mode can damp the vibration effectively, especially the vibration at the resonance point.
结果表明,主动悬挂方式能有效衰减振动,尤其是共振点处的振动。
A model of the integrated dynamic control system of electric power steering (EPS) and semi-active suspension system (SASS) is set up.
建立了汽车电动助力转向和半主动悬架集成控制的动力学模型,运用自校正控制理论设计了集成控制器。
The simulation results indicated that the severity of pitching vibration of vehicle with an active suspension can be obviously reduced.
结果表明,具有主动控制悬架的汽车,其纵向角振动得到明显的衰减。
Based on electromagnetic principle, electromagnet is used for actuator of active suspension and a electromagnetic actuator is structured.
基于电磁学原理,利用电磁铁作为主动悬架的作动器,构造出电磁作动器的一般结构。
Considering nonlinear rigidity of spring element, this dissertation use neural network control strategy to control semi-active suspension.
由于空气弹簧的非线性,所以采用神经网络控制调节空气弹簧的刚度,以期使悬架系统达到理想的减振效果。
Control strategies, which are the kernel of the technology for active suspension control system, greatly influence the suspension performance.
系统控制策略设计作为整个主动悬架控制技术的核心,对悬架特性的影响举足轻重。
The significant attention is given to the application of magnetorheological fluid (MRF) shock absorption in automobile semi-active suspension.
磁流变液在汽车半主动悬架中的应用倍受关注。
Based on electromagnetic theory, electromagnet is used for actuator of active suspension and a general electromagnetic actuator is constructed.
根据电磁学原理,利用电磁铁作为主动悬架的作动器,构造出电磁作动器的一般结构。
Controllable suspension can be divided into body height control suspension, active suspension, semi-active suspension and slow-active suspension.
可控悬架可分为车高控制、主动、半主动和慢主动悬架。
A more practical suboptimal control strategy for the vehicle active suspension is proposed according to the real vehicle conditions in this paper.
本文根据车辆的实际条件,提出了一种更合实际的车辆悬挂的次优主动控制策略。
The application of active suspension and control technique on locomotives and rolling stock is an effective way for speed increase on existing lines.
机车车辆采用主动悬挂及控制技术是既有线大幅度提速的有效措施。
The paper presents an active suspension experiment system with pneumatic artificial muscle as actuators according to the 1/4 suspension mechanism model.
以气动肌肉作为新型执行器,创建基于1/4悬架模型的汽车主动悬架系统。
As to the controlling matter of the active suspension, the most difficult part is to achieve a multi-goal optimization of smoothness and operation stability.
对于解决主动悬架的控制问题,最难以处理的是平顺性与操纵稳定性的多目标优化。
The influence of the damping coefficients and time delay of the semi-active suspension system on the dynamic performance of the passenger car was investigated.
研究半主动减振器的阻尼参数和半主动悬挂系统的时滞对客车系统临界速度和随机响应的影响。
On the basis of the fuzzy logic control, the LMS adaptive filter technology is applied. A new LMS adaptive fuzzy control strategy of active suspension is brought up.
本文针对悬架系统特点,以模糊逻辑控制为基础,将LMS自适应滤波技术应用其中,提出一种新型的车辆主动悬架LMS自适应模糊控制策略。
Recently, the research and exploration of the active suspension and the vibration control system are the international foreland issue in the field of vehicle dynamics.
近年来,主动车辆悬架及其振动控制系统的研究和开发是车辆动力学领域的国际性前沿课题。
The feasibility of applying multi-body dynamics theory and co-simulation technology to semi-active suspension system of tracked vehicle is proved by simulation results.
从而验证了多体理论和联合仿真技术在履带车辆半主动悬挂技术的可行性。
The feasibility of applying multi-body dynamics theory and co-simulation technology to semi-active suspension system of tracked vehicle is proved by simulation results.
从而验证了多体理论和联合仿真技术在履带车辆半主动悬挂技术的可行性。
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