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《汽车安全与节能学报》2014,(3)
作为生态驾驶辅助系统的组成部分,提出了基于道路坡度实时信息的车辆经济车速优化方法。搭建了车辆油耗模型和车辆动力学模型,对于车辆行驶在没有坡度的和前方出现坡道的两种情况,进行最省油车速优化。根据坡度信息,利用动态规划算法,计算出通过坡道的经济车速。对于一款D级轿车,运用Matlab/Simulink和Carsim联合仿真,与真实道路信息上实车模拟结果进行对比分析。结果表明:与传统定速巡航控制算法相比,该算法节油达到5%。这说明,该算法能降低车辆油耗。结合全球定位系统(GPS)信息以及地理信息系统(GIS),该技术可用于基于车联网的生态驾驶辅助系统。 相似文献
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根据路面附着状况实时地选择最优的滑移率控制目标是电动车驱动防滑控制策略的关键.针对四轮驱动电动车的特点,研究利用自适应Kalman滤波获得车速信息和轮胎驱动力信息的方法.利用该方法实时估计车速和驱动力等参数,并计算附着系数-滑移率曲线的斜率k,以对路面附着状况进行精确估计.通过将计算得到的斜率与设定的最优滑移率所对应的斜率之差作为控制参考量,及时地调整驱动电机的输出转矩,提高电动车的道路附着系数利用率,以获得更好的电动车驱动防滑控制效果.仿真结果表明:车辆在高、低附路面行驶时,该算法均可有效地估计滑移率的k值. 相似文献
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首先对全维车速观测器进行降维处理,以减少观测器的在线计算量,并设计了非线性级联车速观测器.接着,对路面附着系数和轮胎侧偏刚度进行参数自适应估计,以提高质心侧偏角的估计精度,并基于HSRI轮胎模型设计了参数自适应非线性质心侧偏角观测器.在估算轮胎侧偏刚度时采用无侧向车速的车辆模型,以避免车辆动力学模型与侧向车速观测器的耦合作用,并引入带双重遗忘因子的递推最小二乘法,以保持算法的修正能力和解除不同估计参数之间误差的耦合作用.最后采用Simulink与Carsim动力学仿真软件进行联合仿真验证,结果表明所设计的参数自适应非线性质心侧偏角观测器是有效的,估计精度满足ESC控制的工程要求. 相似文献
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《中国公路学报》2019,(12)
车辆结构参数和道路环境信息的实时准确获取是提高智能汽车运动控制性能的重要因素之一,而车辆质量与道路坡度信息是多种汽车控制系统的必要信息,因此质量与坡度在线估计的研究一直受到关注。针对车辆质量与道路坡度的联合估计问题,提出了一种基于交互多模型的质量与坡度融合估计方法。首先,设定了适宜进行质量精确估计的工况条件,据此提出了基于模糊规则的质量估计置信度因子计算算法,进而设计了基于置信度因子的递推最小二乘车辆质量估计算法,以实现质量的在线估计。然后,以车辆纵向动力学模型为基础,建立了运动学和动力学2种坡度估计模型,并设计了基于运动学模型的线性卡尔曼滤波坡度观测器,基于电子稳定性程序ESP的纵向加速度信息实现坡度估计,设计了基于动力学模型的无迹卡尔曼滤波坡度观测器,基于ESP和发动机管理系统EMS的力信息实现坡度估计。运动学模型未考虑车辆姿态信息,坡度估算结果与实际值有偏差;动力学模型对模型精度要求高,算法稳定性差,为充分发挥2种方法优势实现坡度的精确估计,采用交互多模型算法实现了2种坡度估计方法的加权融合。最后,对所设计的算法进行了实车试验验证。结果表明:所设计的质量与坡度估算算法具有较好的实时性和准确性,适合智能汽车运动控制的应用需求。 相似文献
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车辆结构参数和道路环境信息的实时准确获取是提高智能汽车运动控制性能的重要因素之一,而车辆质量与道路坡度信息是多种汽车控制系统的必要信息,因此质量与坡度在线估计的研究一直受到关注。针对车辆质量与道路坡度的联合估计问题,提出了一种基于交互多模型的质量与坡度融合估计方法。首先,设定了适宜进行质量精确估计的工况条件,据此提出了基于模糊规则的质量估计置信度因子计算算法,进而设计了基于置信度因子的递推最小二乘车辆质量估计算法,以实现质量的在线估计。然后,以车辆纵向动力学模型为基础,建立了运动学和动力学2种坡度估计模型,并设计了基于运动学模型的线性卡尔曼滤波坡度观测器,基于电子稳定性程序ESP的纵向加速度信息实现坡度估计,设计了基于动力学模型的无迹卡尔曼滤波坡度观测器,基于ESP和发动机管理系统EMS的力信息实现坡度估计。运动学模型未考虑车辆姿态信息,坡度估算结果与实际值有偏差;动力学模型对模型精度要求高,算法稳定性差,为充分发挥2种方法优势实现坡度的精确估计,采用交互多模型算法实现了2种坡度估计方法的加权融合。最后,对所设计的算法进行了实车试验验证。结果表明:所设计的质量与坡度估算算法具有较好的实时性和准确性,适合智能汽车运动控制的应用需求。 相似文献
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J. Oh S. B. Choi Y. J. Chang J. S. Eo 《International Journal of Automotive Technology》2017,18(1):125-135
This paper mainly focuses on the accurate estimation of the torque transferred through the engine clutch installed between the engine and the drive motor in parallel-type hybrid electric vehicles. The estimation of the engine clutch torque primarily relies on the forward-direction observer which uses the nominal engine net torque information. To overcome the limitation of using the nominal engine torque information that it may not be accurate during the transient states or due to the influence of external disturbance such as the road condition and wind, the forward-direction observer is supplemented by the use of reverse-direction observer which uses the driveline model and wheel speed measurements. In addition, the drive motor torque information is used to calibrate the nominal engine torque during the idle charging state, so that the driveline characteristic unique to parallel-type hybrid electric vehicle can be utilized to increase the estimation accuracy. Finally, the estimation performance of the designed observer is tested via simulation and experiments based on a real vehicle. 相似文献
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选取交通事故现场遗留的典型散落物作为试验对象,制作散落物承载装置并模拟真实环境下的车辆碰撞过程,利用VC3000加速计实时计测试验车相关运行参数,在干燥沥青路面进行散落物抛撒试验,深入分析散落物在地面的分布形态,利用ADAMS仿真分析散落物与车辆之间的相对运动过程,探讨路面散落物分布场的特征参数与碰撞车速的关系。 相似文献
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Z.-G. Zhao L.-J. Zhou J.-T. Zhang Q. Zhu 《Vehicle System Dynamics: International Journal of Vehicle Mechanics and Mobility》2017,55(5):750-773
Considering the controllability and observability of the braking torques of the hub motor, Integrated Starter Generator (ISG), and hydraulic brake for four-wheel drive (4WD) hybrid electric cars, a distributed and self-adaptive vehicle speed estimation algorithm for different braking situations has been proposed by fully utilising the Electronic Stability Program (ESP) sensor signals and multiple powersource signals. Firstly, the simulation platform of a 4WD hybrid electric car was established, which integrates an electronic-hydraulic composited braking system model and its control strategy, a nonlinear seven degrees-of-freedom vehicle dynamics model, and the Burckhardt tyre model. Secondly, combining the braking torque signals with the ESP signals, self-adaptive unscented Kalman sub-filter and main-filter adaptable to the observation noise were, respectively, designed. Thirdly, the fusion rules for the sub-filters and master filter were proposed herein, and the estimation results were compared with the simulated value of a real vehicle speed. Finally, based on the hardware in-the-loop platform and by picking up the regenerative motor torque signals and wheel cylinder pressure signals, the proposed speed estimation algorithm was tested under the case of moderate braking on the highly adhesive road, and the case of Antilock Braking System (ABS) action on the slippery road, as well as the case of ABS action on the icy road. Test results show that the presented vehicle speed estimation algorithm has not only a high precision but also a strong adaptability in the composite braking case. 相似文献
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With the real time and accurate information of motor torque and rotation speed of the four-in-wheel-motordrive electric vehicles, a slip based algorithm for estimating maximum road friction coefficient is designed using Lyapunov stability theory. Modified Burckhardt tire model is used to describe longitudinal slip property of the tire. By introducing a new state variable, a nonlinear estimator is proposed to estimate the longitudinal tire force and the maximum road friction coefficient simultaneously. With the appropriate selection of estimation gain, the convergence of the estimation error of the tire longitudinal force and maximum road friction coefficient is proved through Lyapunov stability analysis. In addition, the error is exponentially stable near the origin. Finally the method is validated with Carsim-Simulink co-simulation and real vehicle tests under multi working conditions in acceleration situation which demonstrate high computational efficiency and accuracy of this method. 相似文献
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在ABAQUS中建立移动的周期荷载,模拟真实的车辆荷载,分析连续式弯沉检测中检测速度、轴载大小、检测温度对路表弯沉产生的影响。计算表明:车速由40 km·h^-1增加到120 km·h^-1时,车速对弯沉值的影响显著,弯沉值下降了15.22%,尤其是在低速行驶时更加明显;路表弯沉与轴载大小基本上按照线性比例增加;当温度较低时,路表弯沉随温度较为缓慢变化,接近线性变化;当温度较高时,路表弯沉随温度的变化加快。研究结果初步揭示了检测参数对路表弯沉的影响,为连续式弯沉检测设备的开发应用提供了依据。 相似文献