多点虚拟激励法在整车随机振动分析中的应用

建立了9自由度整车模型,从理论上论述了多点虚拟激励法.构造了路面对整车的路面虚拟激励,求取了汽车虚拟振动响应量,并由此算出了汽车真实振动响应量的功率谱密度.结果表明,虚拟激励法在汽车随机振动分析中的应用和傅里叶分析方法同样有效,却简单得多.     

虚拟激励法人-车-路三质量车辆模型平顺性分析

为评价汽车平顺性,建立简化的人体-座椅、车身及车轮三质量1／4车辆模型,给出了该模型振动系统的频响特性公式,采用虚拟激励法,构造虚拟路面激励,运用matlab编程求取所建模型系统振动响应量的功率谱密度,并进行了行驶平顺性分析。结果表明,汽车行驶速度与道路路面条件是影响汽车行驶平顺性主要外在因素,为获得良好的汽车行驶平顺性,应加以改善;虚拟激励法用于求解车辆振动响应,快速高效,能很好地反映汽车行驶的平顺性,提高汽车平顺性设计水平与效率。     

汽车迟滞非线性动力系统仿真研究

通过轿车副车架橡胶支承的动态特性试验,实现了橡胶支承迟滞非线性特性的数学建模和参数识别。用动态子结构方法将整车模型划分为多个子结构,采用含连接子结构的自由界面模态综合法建立了整车非线性流固耦合模型。用MontoCarlo法模拟路面激励谱和发动机随机激励力谱,利用整车结构-声学耦合系统的运动微分方程,在时域内对路面激励和发动机激励产生的振动和车内噪声特性进行仿真模拟,并通过道路试验和台架试验对计算结果进行了验证。     

基于RBF神经网络识别路面谱的新方法

路面不平度是车辆行驶中振动的重要激励。为了识别路面不平度的功率谱密度函数(路面谱),提出了一种基于径向基函数(RBF)神经网络识别路面谱的新方法。该方法以7自由度汽车振动模型为基础,以MATLAB软件仿真得到的汽车车身质心垂直加速度谱为神经网络理想输入样本,以GB7031-86建议的路面谱为神经网络理想输出样本,应用RBF神经网络建立汽车车身质心垂直加速度谱和路面谱之间的非线性映射模型。另取一组仿真得到的车身质心垂直加速度谱代入已训练好的网络进行路面谱识别。结果表明:该方法具有较强的抗噪声能力和较理想的识别精度,识别的路面谱与拟合的路面谱吻合一致。     

Optimization for Vehicle Suspension II: Frequency Domain

The objective of this study is optimizing the components design of a vehicle suspension system under excitation due to road roughness. The vehicle is modelled as a dynamic system made of masses interconnected by, linear, springs and dampers. The optimizing code provides values corresponding to the caracteristics of masses, dampers and springs which, within a range, minimize the objective function for a defined excitation. This objective function auantifies the vehicle comfort level.

The optimization method used is the sequential linear programming by iteratively applying the Simplex algorithm. The model response is obtained in frequency domain and the vehicle excitation can be either random or deterministic.

The exact nature of the optimization problem, objective function and restrictions, depend on the type of excitation considered.

In succeeding paragraphs, the problem formulation together with a comparison with other authors is presented.     

考虑弹性支撑边界条件的电动汽车-路面系统机电耦合振动特性分析

轮毂电机驱动电动汽车的簧下质量大导致轮胎动载荷增加,并且电机电磁力和转矩波动对车轮造成电机激励,进一步加剧车轮振动引起垂向振动负效应的问题。鉴于此,考虑电机的电磁激励,建立了电动汽车-路面系统的机电耦合动力学模型,推导了弹性支撑边界条件下路面结构的模态频率和振型表达式,以及路面振动引起的二次激励。计算了简支与弹性支撑边界条件下的路面模态频率,根据频率分布进行了截断阶数选取,并分析了边界条件、电机激励和车速对路面响应的影响。在此基础上,研究了不同行驶速度、路基反应模量及路面不平顺幅值下,激励形式对汽车车身加速度、悬架动挠度和轮胎动载荷的影响。结果表明：路面不平顺幅值越小,弹性支撑对路面响应的影响越大,弹性支撑边界条件下的路面响应较小,电机激励会引起路面响应的增加;弹性支撑边界条件下,路面不平顺幅值和路基反应模量越小,考虑路面不平顺、路面二次激励和电机激励的三重综合激励对电动汽车响应的影响越大,激励形式对轮胎动载荷的影响最大,对车身加速度的影响次之,对悬架动挠度的影响最小;电机激励导致轮胎动载荷增加,对路面破坏和寿命产生的负效应不容忽视。所建电动汽车-路面系统机电耦合模型及研究思路可为电动汽车垂向动力学分析提供参考与理论支持。     

Parameters optimisation of a vehicle suspension system using a particle swarm optimisation algorithm

The purpose of this paper is to determine the lumped suspension parameters that minimise a multi-objective function in a vehicle model under different standard PSD road profiles. This optimisation tries to meet the rms vertical acceleration weighted limits for human sensitivity curves from ISO 2631 [ISO-2631: guide for evaluation of human exposure to whole-body vibration. Europe; 1997] at the driver's seat, the road holding capability and the suspension working space. The vehicle is modelled in the frequency domain using eight degrees of freedom under a random road profile. The particle swarm optimisation and sequential quadratic programming algorithms are used to obtain the suspension optimal parameters in different road profile and vehicle velocity conditions. A sensitivity analysis is performed using the obtained results and, in Class G road profile, the seat damping has the major influence on the minimisation of the multi-objective function. The influence of vehicle parameters in vibration attenuation is analysed and it is concluded that the front suspension stiffness should be less stiff than the rear ones when the driver's seat relative position is located forward the centre of gravity of the car body. Graphs and tables for the behaviour of suspension parameters related to road classes, used algorithms and velocities are presented to illustrate the results. In Class A road profile it was possible to find optimal parameters within the boundaries of the design variables that resulted in acceptable values for the comfort, road holding and suspension working space.     

Simulation of the Interaction between Vehicle Wheel and the Unevenness of Road Surface

A model of the relationship between a vehicle wheel and the unevenness of the road surface is defined. The wheel is considered to be of circular shape. For a given form of unevenness, the excitation functions are evaluated for the individual subsystems of the dynamic vehicle model having 5 degrees of freedom. The vehicle model traverses the uneven surface at a variable velocity. The model provides for the study of the complex dynamic phenomena which occur between the wheel and the unevenness. The response of the model also includes the dynamic stress on the drive when the wheel passes over the unevenness of the road surface.     

考虑路面不平度的汽车稳定性控制的研究

考虑路面不平度对汽车稳定性的影响，建立了一个含路面不平度激励的14自由度的汽车动力学模型。在主动悬架技术的基础上，运用直接的反馈控制制定了提高汽车操纵稳定性的控制策略。利用该模型进行了汽车稳定性的仿真研究。与没有稳定性控制系统的仿真结果相比，该控制器的应用能够较好地改善汽车的稳定性。     

Simulation of the Interaction between Vehicle Wheel and the Unevenness of Road Surface

SUMMARY

A model of the relationship between a vehicle wheel and the unevenness of the road surface is defined. The wheel is considered to be of circular shape. For a given form of unevenness, the excitation functions are evaluated for the individual subsystems of the dynamic vehicle model having 5 degrees of freedom. The vehicle model traverses the uneven surface at a variable velocity. The model provides for the study of the complex dynamic phenomena which occur between the wheel and the unevenness. The response of the model also includes the dynamic stress on the drive when the wheel passes over the unevenness of the road surface.     

基于ADAMS的随机路面不平度建模及参数选择

车辆的垂直运动和俯仰运动会影响乘客的舒适性和安全性,垂向振动的激励除了发动机的激励,还取决于路面轮廓的不平度.应用谐波叠加法对路面不平度的特征能较好的拟合,并对生成的路面与国际标准的分级路面进行对比,分析谐波的数目对路面不平度均方根值有很大影响,证明生成时域信号的功率谱密度与标准规定的路面等级一致,可以作为研究车辆垂向...     

外部激励对发动机外平衡影响的道路试验研究

为探求车辆行驶时外部激励对发动机外平衡的影响,结合车辆行驶时发动机工作特点,以发动机横、纵中心截面相对振动位移作为评价指标,以路况、挡位和车速作为考察参数,在2种差异较大的路况上进行了2挡和3挡多车速道路试验.并根据DoE方差分析法对试验结果进行定量分析.分析结果表明,发动机外平衡受车速和路况影响较大,受挡位影响较小;各参数的交互作用对纵向外平衡影响显著,对横向外平衡影响不显著.     

Design of tyre force excitation for tyre–road friction estimation

Knowledge of the current tyre–road friction coefficient is essential for future autonomous vehicles. The environmental conditions, and the tyre–road friction in particular, determine both the braking distance and the maximum cornering velocity and thus set the boundaries for the vehicle. Tyre–road friction is difficult to estimate during normal driving due to low levels of tyre force excitation. This problem can be solved by using active tyre force excitation. A torque is added to one or several wheels in the purpose of estimating the tyre–road friction coefficient. Active tyre force excitation provides the opportunity to design the tyre force excitation freely. This study investigates how the tyre force should be applied to minimise the error of the tyre–road friction estimate. The performance of different excitation strategies was found to be dependent on both tyre model choice and noise level. Furthermore, the advantage with using tyre models with more parameters decreased when noise was added to the force and slip ratio.     

Using the lead vehicle as preview sensor in convoy vehicle active suspension control

Both ride quality and roadholding of actively suspended vehicles can be improved by sensing the road ahead of the vehicle and using this information in a preview controller. Previous applications have used look-ahead sensors mounted on the front bumper to measure terrain beneath. Such sensors are vulnerable, potentially confused by water, snow, or other soft obstacles and offer a fixed preview time. For convoy vehicle applications, this paper proposes using the overall response of the preceding vehicle(s) to generate preview controller information for follower vehicles. A robust observer is used to estimate the states of a quarter-car vehicle model, from which road profile is estimated and passed on to the follower vehicle(s) to generate a preview function. The preview-active suspension, implemented in discrete time using a shift register approach to improve simulation time, reduces sprung mass acceleration and dynamic tyre deflection peaks by more than 50% and 40%, respectively. Terrain can change from one vehicle to the next if a loose obstacle is dislodged, or if the vehicle paths are sufficiently different so that one vehicle misses a discrete road event. The resulting spurious preview information can give suspension performance worse than that of a passive or conventional active system. In this paper, each vehicle can effectively estimate the road profile based on its own state trajectory. By comparing its own road estimate with the preview information, preview errors can be detected and suspension control quickly switched from preview to conventional active control to preserve performance improvements compared to passive suspensions.     

车身板件结构对汽车行车舒适性的影响

采用有限元与多体动力学相结合的方法分析了车身板件对振动的影响,改变车身板件局部结构,在对振动影响最大的前后地板上增加加强筋后对整车进行振动响应模拟,揭示了车身板件结构对汽车在路面激励下行车舒适性的影响。分析表明,在地板上增加加强筋可以极大地提高汽车的行车舒适性。     

Effect of vertical and lateral coupling between tyre and road on vehicle rollover

The vehicle stability involves many aspects, such as the anti-rollover stability in extreme steering operations and the vehicle lateral stability in normal steering operations. The relationships between vehicle stabilities in extreme and normal circumstances obtain less attention according to the present research works. In this paper, the coupling interactions between vehicle anti-rollover and lateral stability, as well as the effect of road excitation, are taken into account on the vehicle rollover analysis. The results in this paper indicate that some parameters influence the different vehicle stabilities diversely or even contradictorily. And it has been found that there are contradictions between the vehicle rollover mitigation performance and the lateral stability. The direct cause for the contradiction is the lateral coupling between tyres and road. Tyres with high adhesion capacity imply that the vehicle possesses a high performance ability to keep driving direction, whereas the rollover risk of this vehicle increases due to the greater lateral force that tyres can provide. Furthermore, these contradictions are intensified indirectly by the vertical coupling between tyres and road. The excitation from road not only deteriorates the tyres’ adhesive condition, but also has a considerable effect on the rollover in some cases.     

脉冲路面下轮毂电机偏心对电动汽车平顺性影响

为了分析脉冲路面下轮毂电机偏心对电动汽车平顺性的影响,给出了脉冲路面车轮激励和开关磁阻电机激励的表示。建立了考虑轮毂电机质量和轮毂电机激励的电动汽车平面4自由度振动模型,推导出相应的状态方程和输出向量,确定了脉冲路面平顺性评价指标。实现了脉冲路面车轮激励和轮毂电机激励的仿真,在脉冲路面下进行了4种工况的平顺性仿真和比较。结果表明,脉冲路面下轮毂电机偏心对电动汽车平顺性有着不可忽视的影响,设计电动汽车时需要考虑轮毂电机偏心带来的负效应。     

基于二次规划的智能车辆动态换道轨迹规划研究

为实现智能车辆的自主换道操作并满足安全性、舒适性和实时性等约束条件,提出一种针对动态交通环境的换道轨迹规划模型。该模型由道路平面曲线表征模块、路径生成模块以及速度曲线生成模块组成。首先,在道路平面曲线表征模块中,模型基于实时获取的周边道路信息,利用切比雪夫多项式插值法回归拟合出连续可导的道路平面曲线函数,用以保证模型在各种道路平面线形上的普适性。然后,在路径生成模块中,根据换道车辆初始时刻的运动状态,建立一系列多项式方程,并利用牛顿迭代法求解方程未知参数,以此生成连接初始位置和目标位置的换道路径,用以保证换道轨迹的平滑性。最后,在速度曲线生成模块中,以满足防碰撞约束、跟驰加速度约束以及车辆运动状态约束为目标,构建二次规划模型,生成沿着换道路径的车辆速度曲线,用以保证换道轨迹的安全性和舒适性。此外,考虑到周边动态的交通环境,车辆系统在每个时间步内会循环调用提出的模型实时更新换道轨迹,直至车辆到达目标位置。仿真试验结果表明：应用提出的换道轨迹规划模型,车辆能够有效避免与周边动态车辆发生碰撞,成功完成换道;基于二次规划框架,模型优化求解时间明显缩短,满足轨迹规划的实时性和有效性要求。     

基于ReliefF-RBF的路面不平度识别算法研究

路面不平度对道路车辆行驶安全性及车辆动力学响应具有重要影响。通过将路面不平度识别与先进悬架控制结合,有望能进一步提升乘员舒适性和车辆的操纵稳定性。现有基于数据驱动的路面分类方法难以高效处理时变参数与车速,现有基于模型的路面识别算法需要已知精确车辆模型,在实际应用中面临车辆物理参数难以获得的问题。提出一种融合模型和数据驱动的路面分类算法,采用基于模型的方法反算等效路面轮廓,结合数据预处理方法,对车辆响应和反算等效路面轮廓数据进行滤波;对等效路面轮廓和响应信息进行时域频域特征计算,采用ReliefF算法进行关键特征提取,构建基于径向基函数神经网络的路面分类器,进行路面分级识别;通过仿真试验和实车试验验证了不同车辆参数和车速下所提出的算法鲁棒性。