Data-based modeling of vehicle collision by LPV-ARMAX model approach

Qiugang Lu, W. Pawlus, H. Karimi, K. Robbersmyr
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引用次数: 1

Abstract

Vehicle crash are considered to be events with high complexity from the mathematical points of view. The high experiment cost and huge time-consumption make the establishment of a mathematical model of vehicle crash which can simplify the analysis process in great demand. In this work, we present the application of LPV-ARMAX model to simulate the car-to-pole collision with different initial impact velocities. The parameters of the LPV-ARMAX are assumed to be functions of the initial impact velocities. Instead of establishing a set of LTI models for vehicle crashes with various impact velocities, the LPV-ARMAX model is comparatively simple and applicable to predict the responses of new collision situations different from those used for identification. The comparison between the predicted response and the real test data is conducted, which shows the high fidelity of the LPV-ARMAX model.
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基于LPV-ARMAX模型的车辆碰撞数据建模
从数学的角度来看,车辆碰撞是一个非常复杂的事件。由于实验成本高、耗时长,建立汽车碰撞数学模型可以大大简化分析过程。本文采用LPV-ARMAX模型对不同初始碰撞速度下的汽车碰撞进行了仿真。假设LPV-ARMAX的参数是初始冲击速度的函数。LPV-ARMAX模型相对简单,适用于预测不同于识别的新碰撞情况的响应,而不是针对不同碰撞速度的车辆碰撞建立一套LTI模型。将预测响应与实际试验数据进行了比较,表明LPV-ARMAX模型具有较高的保真度。
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