基于递归神经网络的四驱转向车辆侧偏角估计

IF 0.5 Q4 TRANSPORTATION SCIENCE & TECHNOLOGY
Tiziano Alberto Giuliacci, Stefano Ballesio, Marco Fainello, Ulrich Mair, Julian King
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引用次数: 0

摘要

分析道路车辆横向动力学的一个有价值的量是侧滑角,即车辆纵轴与其速度方向之间的夹角。一个可靠的实时侧滑角值可以实现多种功能,如稳定性控制、转向不足和转向过度情况的识别、转弯时的侧向力估计、轮胎抓地力和磨损估计。由于该变量的直接测量只能通过复杂和昂贵的设备来完成,因此值得尝试通过基于数学模型的虚拟传感器来估计它。本文阐述了一种通过机器学习模型(sse -侧滑估计器)实时估计侧滑角的方法。它利用了一个循环神经网络,并通过道路实验数据采集进行了训练和测试。特别是,机器学习模型只使用来自标准道路汽车传感器配置的输入信号。通过敏感性分析验证了模型对不同路况和轮胎磨损水平的适应性,并对实际数据进行了模型测试,证明了该方法的鲁棒性和准确性,在测试数据集上的均方根误差(RMSE)为0.18度,最大绝对误差为1.52度。所提出的模型可以被认为是一种可靠且廉价的实时车载侧偏角估计的潜在解决方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Recurrent Neural Network Model for On-Board Estimation of the Side-Slip Angle in a Four-Wheel Drive and Steering Vehicle
A valuable quantity for analyzing the lateral dynamics of road vehicles is the side-slip angle, that is, the angle between the vehicle’s longitudinal axis and its speed direction. A reliable real-time side-slip angle value enables several features, such as stability controls, identification of understeer and oversteer conditions, estimation of lateral forces during cornering, or tire grip and wear estimation. Since the direct measurement of this variable can only be done with complex and expensive devices, it is worth trying to estimate it through virtual sensors based on mathematical models. This article illustrates a methodology for real-time on-board estimation of the side-slip angle through a machine learning model (SSE—side-slip estimator). It exploits a recurrent neural network trained and tested via on-road experimental data acquisition. In particular, the machine learning model only uses input signals from a standard road car sensor configuration. The model adaptability to different road conditions and tire wear levels has been verified through a sensitivity analysis and model testing on real-world data proves the robustness and accuracy of the proposed solution achieving a root mean square error (RMSE) of 0.18 deg and a maximum absolute error of 1.52 deg on the test dataset. The proposed model can be considered as a reliable and cheap potential solution for the real-time on-board side-slip angle estimation in serial cars.
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