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1.
通过将驾驶员模型、汽车运动学模型与闭环控制系统相结合,给出了一种基于最大预瞄距离驾驶员模型的空间方程.采用Lyapunov-Krasovskii泛函方法,分析基于该模型的“人—车—路”闭环控制系统的指数稳定性条件.利用所建立的4轮车辆驾驶员模型,分别采用不同的最大预瞄距离值和驾驶员反应时滞值,对车辆路径跟随进行了仿真试...  相似文献   

2.
用于电子稳定程序的汽车模型和控制策略   总被引:9,自引:0,他引:9  
电子稳定程序(ElectronicStabilityProgram)是行驶车辆的一种主动安全系统,它综合了制动防抱死系统,驱动力控制系统和横摆力矩控制系统,使行驶车辆的安全性得到很大的提高。本文首先建立用于电子稳定程序的汽车模型,包括车身模型、悬架模型、转向模型、轮胎模型、制动系统模型、发动机模型和传动系模型。然后建立了主动横摆控制的控制逻辑,通过加入制动防抱死系统和牵引力控制系统,构成了电子稳定程序的控制逻辑。最后对移线运动、紧急转向、制动转向、驱动转向4个典型的工况进行仿真,从而验证了电子稳定程序控制逻辑的正确性。  相似文献   

3.
A comparison between two different approaches to vehicle stability control is carried out, employing a robust non-parametric technique in the controller design. In particular, an enhanced internal model control strategy, together with a feedforward action and a suitably generated reference map, is employed for the control of a vehicle equipped either with a rear wheel steering (RWS) system or with a rear active differential (RAD) device. The uncertainty arising from the wide range of operating conditions is described by an additive model set employed in the controller design. Extensive steady state and transient tests simulated with an accurate 14 degrees of freedom nonlinear model of the considered vehicle show that both systems are able to improve handling and safety in normal driving conditions. RAD devices can make the vehicle reach higher lateral acceleration values but they achieve only slight stability improvements against oversteer. On the other hand, 4WS systems can greatly improve both vehicle safety and manoeuvrability in all driving situations, making this device an interesting and powerful stability system.  相似文献   

4.
汽车碰撞试验已经成为我国强制性法规试验检测项目,而汽车碰撞试验台的动力特性是进行试验台能力设计、弹射过程控制、速度控制等的基础。本文分析了基于橡皮绳储能介质的汽车碰撞弹射试验台,建立充分考虑橡皮绳质量、摩擦系数、车辆质量、旋转质量因素和空气阻力等影响因子的试验台动力学模型,并经试验得到很好的验证,并提出基于过程动力特性方程的控制算法,所得结论可为同类试验台架系统设计和提高过程控制提供理论参考。  相似文献   

5.
This study introduces an integrated dynamic control with steering (IDCS) system to improve vehicle handling and stability under severe driving conditions. It integrates an active rear-wheel steering control system and a direct yawmoment control system with fuzzy logic. Direct yaw-moment control is achieved by modifying the optimal slip of the front outer wheel. An 8-degree-of-freedom vehicle model was used to evaluate the proposed IDCS for various road conditions and driving inputs. The results show that the yaw rate tracked the reference yaw rate and that the body slip angle was reduced when the IDCS was employed, thereby increasing the controllability and stability of the vehicle on slippery roads. The IDCS system reduced the deviation from the center line for a vehicle running on a split m road.  相似文献   

6.
王姝  赵轩  余强  余曼 《中国公路学报》2022,35(1):334-349
为了使双电机驱动电动车在车辆稳定性控制过程中能够精确解读驾驶意图,使车辆实际行驶状态与驾驶意图期望的车辆行驶状态尽可能相符合,提出一种基于驾驶人意图辨识的稳定性控制策略.利用基于支持向量机递归特征消除(SVM-RFE)得到的特征参数构建基于长短期记忆(LSTM)模型的驾驶人转向意图辨识模型;基于转向意图识别结果,以方向...  相似文献   

7.
A sliding-mode observer is designed to estimate the vehicle velocity with the measured vehicle acceleration, the wheel speeds and the braking torques. Based on the Burckhardt tyre model, the extended Kalman filter is designed to estimate the parameters of the Burckhardt model with the estimated vehicle velocity, the measured wheel speeds and the vehicle acceleration. According to the estimated parameters of the Burckhardt tyre model, the tyre/road friction coefficients and the optimal slip ratios are calculated. A vehicle adaptive sliding-mode control (SMC) algorithm is presented with the estimated vehicle velocity, the tyre/road friction coefficients and the optimal slip ratios. And the adjustment method of the sliding-mode gain factors is discussed. Based on the adaptive SMC algorithm, a vehicle's antilock braking system (ABS) control system model is built with the Simulink Toolbox. Under the single-road condition as well as the different road conditions, the performance of the vehicle ABS system is simulated with the vehicle velocity observer, the tyre/road friction coefficient estimator and the adaptive SMC algorithm. The results indicate that the estimated errors of the vehicle velocity and the tyre/road friction coefficients are acceptable and the vehicle ABS adaptive SMC algorithm is effective. So the proposed adaptive SMC algorithm can be used to control the vehicle ABS without the information of the vehicle velocity and the road conditions.  相似文献   

8.
汽车无级变速传动(CVT)建模与仿真   总被引:22,自引:4,他引:22  
周云山  裘熙定 《汽车工程》1998,20(5):285-289
从实时控制的角度出发,建立了汽车的无级变速传动夹紧力控制,速比控制及整车动态模型,基于这一动态模型,仿真计算了汽车在起步与行驶阻力变化时的动态调节过程,为进一步研究无级变速传动控制规律和进行电控系统设计提供必要的前期工作基础。  相似文献   

9.
根据异步电机直接转矩控制原理,在Matlab/Simulink软件环境下建立了电动汽车用异步电机的仿真模型和定子磁场定向下的DTC控制系统模型.以实际电动汽车用电机为例,对电动汽车的几个典型工况进行仿真分析.仿真结果表明,该电机及控制模型具有良好的稳态、动态性能,是一个很好的电动车驱动选择方案.  相似文献   

10.
基于非线性车辆动力学方程和固定车辆间距跟随策略,对具有时间滞后的自动化公路系统车辆纵向跟随控制问题进行了研究。在假定车队中的每个被控制车辆能够接收到车队领头车辆以及该车前面一个车辆的位移、速度和加速度信息的情况下,应用滑模变结构控制方法,通过对滑模运动方程的分析,得到了关于车辆间距误差的车辆纵向跟随系统的数学模型。该模型属于一类具有时间滞后的无限维非线性关联大系统。在具有时间滞后的车辆纵向跟随控制器设计中,利用该类非线性关联大系统的稳定性判定条件来设计控制参数,可确保车辆纵向跟随控制系统的稳定性。  相似文献   

11.
The aim of this work is to develop a comprehensive yet practical driver model to be used in studying driver–vehicle interactions. Drivers interact with their vehicle and the road through the steering wheel. This interaction forms a closed-loop coupled human–machine system, which influences the driver's steering feel and control performance. A hierarchical approach is proposed here to capture the complexity of the driver's neuromuscular dynamics and the central nervous system in the coordination of the driver's upper extremity activities, especially in the presence of external disturbance. The proposed motor control framework has three layers: the first (or the path planning) plans a desired vehicle trajectory and the required steering angles to perform the desired trajectory; the second (or the musculoskeletal controller) actuates the musculoskeletal arm to rotate the steering wheel accordingly; and the final layer ensures the precision control and disturbance rejection of the motor control units. The physics-based driver model presented here can also provide insights into vehicle control in relaxed and tensed driving conditions, which are simulated by adjusting the driver model parameters such as cognition delay and muscle co-contraction dynamics.  相似文献   

12.
针对自动驾驶车辆换道轨迹规划时的操纵稳定性问题,基于CarSim/Simulink仿真平台建立了车辆动力学模型,构建了轨迹规划系统框架,通过轨迹信息后处理并提出了目标函数设计,进行了横向控制序列采样以保证车辆的稳定与极限性能,完成了算法对轨迹的综合评价选优。随后开展了仿真试验,对比分析了轨迹跟踪控制系统下的实际轨迹、最优规划方法所规划的换道轨迹。仿真结果表明,该轨迹规划系统框架及算法模型能有效提高车辆的操纵稳定性,可实现冰雪路面等极端工况下自动驾驶车辆换道轨迹规划。  相似文献   

13.
Modelling uncertainty, parameter variation and unknown external disturbance are the major concerns in the development of an advanced controller for vehicle stability at the limits of handling. Sliding mode control (SMC) method has proved to be robust against parameter variation and unknown external disturbance with satisfactory tracking performance. But modelling uncertainty, such as errors caused in model simplification, is inevitable in model-based controller design, resulting in lowered control quality. The adaptive radial basis function network (ARBFN) can effectively improve the control performance against large system uncertainty by learning to approximate arbitrary nonlinear functions and ensure the global asymptotic stability of the closed-loop system. In this paper, a novel vehicle dynamics stability control strategy is proposed using the adaptive radial basis function network sliding mode control (ARBFN-SMC) to learn system uncertainty and eliminate its adverse effects. This strategy adopts a hierarchical control structure which consists of reference model layer, yaw moment control layer, braking torque allocation layer and executive layer. Co-simulation using MATLAB/Simulink and AMESim is conducted on a verified 15-DOF nonlinear vehicle system model with the integrated-electro-hydraulic brake system (I-EHB) actuator in a Sine With Dwell manoeuvre. The simulation results show that ARBFN-SMC scheme exhibits superior stability and tracking performance in different running conditions compared with SMC scheme.  相似文献   

14.
针对电动汽车行驶工况的要求,为了使电机能够有良好的启动特性和稳态特性,在Simulink中建立了无刷直流电机转速-电流双闭环控制系统仿真模型,转速控制神经网络和模糊控制对PID控制参数进行在线整定;电流环采用电流滞环控制,并对控制模型进行空载启动后加载实验。实验结果表明,本文设计的控制系统响应速度快,无静差,抗干扰能力强。  相似文献   

15.
This paper investigates an active front steering control strategy based on quantitative feedback theory (QFT). By incorporating feedback from a yaw rate sensor into the active steering system, the control system improves the dynamic response of the vehicle. The steering response of a vehicle generally depends upon uncertain quantities like mass, velocity, and road conditions. Thus, QFT is used to design a controller with robust performance. A multi-degree-of-freedom nonlinear model is co-simulated here by MATLAB Simulink and ADAMS/CAR. The performance of the control system is evaluated under various emergency maneuvers and road conditions. The result shows that the designed robust control system has good control performance and can efficiently improve handing qualities and stability characteristics.  相似文献   

16.
为实现复杂工况下的车道线保持控制,建立了包含转向机构动态的车辆横向动力学模型,在此基础上研究了车辆在直道与弯道工况下的车道保持控制问题并提出一种自校正滑模控制方法.该方法引入sigmoid函数代替滑模控制中的符号函数并根据Lyapunov稳定性理论设计了自校正律,在自校正律的作用下sigmoid函数的边界层厚度以及切换...  相似文献   

17.
To solve the problem of the existing fault-tolerant control system of four-wheel independent drive (4WID) electric vehicles (EV), which relies on fault diagnosis information and has limited response to failure modes, a modelindependent self-tuning fault-tolerant control method is proposed. The method applies model-independent adaptive control theory for the self-tuning active fault-tolerant control of a vehicle system. With the nonlinear properties of the adaptive control, the complex and nonlinear issues of a vehicle system model can be solved. Besides, using the online parameter identification properties, the requirement of accurate diagnosis information is relaxed. No detailed model is required for the controller, thereby simplifying the development of the controller. The system robustness is improved by the error based method, and the error convergence and input-output bounds are proved via stability analysis. The simulation and experimental results demonstrate that the proposed fault-tolerant control method can improve the vehicle safety and enhance the longitudinal and lateral tracking ability under different failure conditions.  相似文献   

18.
汽车防抱死制动系统(Anti-lock Braking System,ABS)的作用是确保汽车制动时行驶方向的稳定性、可靠性,但是目前仍存在非线性、时变性以及参数不确定性等问题.为保证汽车制动行驶过程中的操纵稳定性和安全性,进一步实现各工况下防抱死制动系统的优化控制,以影响整车稳定的变量滑移率为研究对象,分析所设计策略...  相似文献   

19.
20.
电动汽车矢量控制的模糊-PID复合控制方式   总被引:4,自引:2,他引:4  
汤东胜  吴光强  董华林 《汽车工程》2003,25(1):61-64,95
在异步电机矢量控制方法的基础上,提出了电动汽车交流异步电机驱动矢量控制系统的模糊-PID复合控制方式,以使汽车在起步和加速时获得最大的加速度,并设计了具体的控制策略。然后基于MATLAB/SIMULINK仿真平台建立了整个控制系统的仿真模型,并给出了仿真结果。结果表明,采用模糊PID矢量控制的交流驱动电动汽车在各种附着系数路面均具有良好的起步、加速和稳速性能。  相似文献   

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